KR101091867B1 - A manufacturing system of electrolytic sterilizing water - Google Patents

Abstract

PURPOSE: A system for manufacturing electrolytic sterilizing water is provided to improve the manufacturing efficiency of the electrolytic sterilizing water without separate power rotating a rotating unit. CONSTITUTION: A system for manufacturing electrolytic sterilizing water includes a unit(1000) for manufacturing electrolytic sterilizing water, an electrolyte supplying unit, a water supplying source, a power supplying part, and a controlling part. The unit for manufacturing electrolytic sterilizing water includes a reacting part(110). An anode(111) and a cathode(112) are arranged in the reacting part and generate electrolytic products based on an electrolysis reaction. The electrolyte supplying unit includes an electrolyte storing part(3100), a combining part(3210), and a first transferring line(3200). Electrolyte is stored in the electrolyte storing part. One side of the combining part is in connection with the reacting part.

Description

A manufacturing system of electrolytic sterilizing water

The present invention relates to a sterile electrolyzed water production system, and more particularly, the present invention, the electrolyte storage unit having a detachable stopper is fastened to the fastening portion of the first transfer line to open the sealing membrane to supply the electrolyte safely, the replacement operation is An easy sterilization electrolytic water production system.

The sterilized electrolyzed water has sterilization and disinfecting ability against various bacteria, molds, viruses and the like, and examples thereof include hypochlorous acid or 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 the 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.

In pH4 or less in the weak acid in the form of chlorine gas (Cl _2), and a neutral region in the form of hypochlorous acid (HOCl), in the alkaline region hypochlorite ion (OCl ^-) are present in the form of, the sterilizing power of hypochlorous acid (HOCl) chlorite ion it is known that better than ^- (OCl).

Hypochlorite water is classified into strong acid hypochlorite water (pH 2.7 or less, effective chlorine concentration 40 ~ 60ppm), and unacidic hypochlorite water (pH 5.0 ~ 6.5, effective chlorine concentration 10 ~ 30ppm). Excellent acid hypochlorous acid water.

As a conventional method for producing sodium hypochlorite water, there is Korean Patent Publication No. 10-0634889 by the present applicant.

The method is electrolyzed by supplying raw water containing a certain concentration of brine to the diaphragm electrolyzer having a diaphragm between the anode and the cathode, and applying a direct current to the anode and the cathode. Then, the positive electrode in a chloride ion (Cl ^-) dissociate the enemy is a chlorine (Cl ₂ (aq occurs oxide) reacts with the raw water, and the produced sodium high concentration of hypochlorite arithmetic (NaOCl), sodium in the negative ion (Na ⁺ ) Is reduced to react with the raw water to produce a strong alkali water. (Invented by the inventor of the present application)

Another technique is to electrolyze raw water to which 2-6% hydrochloric acid is added in a membrane-free electrolyzer to produce microacidic hypochlorous acid water.

The method is characterized in that chlorine (Cl ₂ (g)) formed by oxidation of chlorine ion (Cl ⁻ ) at the anode reacts with chlorine (Cl ₂ (g)) and raw water (H ₂ O) Thereafter, there is also a method of producing a non-acidic hypochlorous acid water having a pH of 5.0 to 6.5 by dilution with a large amount of raw water.

However, the conventional hypochlorite water or sodium hypochlorite manufacturing apparatus has high chlorine (Cl ₂ (g)) that does not dissolve due to the low mixing degree of raw water and an electrolytic product such as high concentration of hypochlorous acid or sodium hypochlorite, resulting in high efficiency of electrolytic water production. There is a problem of deterioration.

In addition, when undissolved chlorine is used as sterile electrolytic water, it remains in the sterilized product, causing deformation or staining of the sterilized product.

In addition, the conventional hypochlorous acid or sodium hypochlorite production device is a separate mixing dilution tank for mixing the electrolytic product generated in the electrolytic cell with raw water, a valve for controlling the inflow of raw water supplied to the dilution tank, in the mixed dilution tank Since a separate faucet for discharging the generated electrolytic sterilization water is required, the device configuration is complicated, and there is a problem that it must be enlarged.

The present invention has been made to solve the problems described above, the object of the present invention is that the electrolyte storage unit having a detachable stopper is fastened to the fastening portion of the first transfer line can be sealed to open the electrolyte can be supplied safely. To provide a sterilized electrolytic water production system that is easy to replace.

In addition, an object of the present invention is to provide a sterilizing electrolytic water production system that is provided with a rotating means inside the mixing unit to uniformly mix and disperse the electrolytic product and the raw water, to prevent waste of the electrolyte by the guide member. .

In addition, an object of the present invention is to provide a sterilized electrolytic water production system that does not require a separate power for rotating the rotating means and can be miniaturized in a simple configuration.

In addition, an object of the present invention is that when the production of sterilized electrolytic water is necessary, the opening and closing means is open to the electrolytic product is supplied to the mixing unit is discharged through the discharge of the sterilized electrolytic water, and some of the raw water introduced through the raw water inlet is supplied to the reaction unit It is to provide a sterilized electrolytic water production system that can increase the overall sterilized electrolytic water production efficiency by the electrode reaction.

In addition, an object of the present invention is to close the opening and closing means when the production of sterilized electrolytic water is not necessary to block the supply of the electrolyte to the mixing portion and the supply of raw water to the reaction portion to increase the efficiency of the production of electrolytic products in the reaction portion, electrolyte consumption It is to provide a sterilized electrolytic water production system that can be reduced.

In the sterilized electrolytic water production system of the present invention, the positive electrode 111 and the negative electrode 112 are accommodated, and a reaction part 110 to generate an electrolytic product by an electrolysis reaction, and the reaction part 110 inside the body 100. The electrolytic product generated in the upper portion is moved to the upper side, the raw water inlet portion 121 through which raw water is introduced, and the discharge portion 122 through which sterilized electrolytic water mixed with raw water and the electrolytic product are formed, respectively. Mixing unit 120 ; Sterilizing electrolytic water production apparatus 1000 comprising a; The electrolyte is stored therein, and the opening part 3110 is sealed by the sealing membrane 3120, and the fixing part 3130 is formed on the outer circumferential surface thereof, and the electrolyte storage part 3100 that can be opened and closed by the stopper 3140 , and one side thereof. The fastening part 3210 of the shape corresponding to the fixing part 3130 and the fixing part 3130 and the fastening part 3210 of the electrolyte storage part 3100 are connected to the reaction part 110. An electrolyte supply device 3000 including a first transfer line 3200 having a cutout 3220 for cutting the sealing membrane 3120 by fastening ; A faucet 2000 connected to the discharge part 122; A raw water supply unit 4000 connected to the raw water inlet unit 121 of the mixing unit 120 to supply raw water into the mixing unit 120; A power supply unit 5000 that is energized with the positive electrode 111 and the negative electrode 112 to supply power ; And a controller 6000 for controlling the operation ; Characterized in that it comprises a.

In addition, the cutout 3220 is characterized in that the tubular member is formed with a sharp end.

In addition, the sterilizing electrolytic water producing apparatus 1000 is the reaction unit 110 and the mixing unit 120 is formed by the body 100, the rotating means 300 is formed and rotated inside the mixing unit 120 ; Characterized in that it comprises a.

In addition, the rotating means 300 is characterized by being rotated by the raw water flowing through the raw water inlet portion 121.

In addition, the sterilizing electrolytic water manufacturing apparatus 1000 is a partition plate 211 and the partition plate formed with a communication portion 212 is hollow in a predetermined area in the form of a plate below the mixing portion 120 of the body 100, and the partition plate ( 211) is provided to be inclined at a predetermined angle on the lower side, and includes a guide plate 221 formed with a first hollow hole 222 and a second hollow hole 223 at the upper side, and generated in the reaction unit 110 A gaseous electrolytic product is moved upward along the guide plate 221 to guide the member 200 to be moved to the mixing unit 120 through the second hollow hole 223 and the communication unit 212; It is characterized by.

In addition, the body 100 is formed by the combination of the lower body 102 and the upper body 101, the guide member 200 is formed integrally with the partition plate 211 and the upper body 101 The first guide member 210 is tightly fixed to the inner wall surface of the, and the guide plate 221 is formed integrally with the first guide member 210 includes a second guide member 220 is fixed to the inner wall surface It is characterized by.

In addition, the guide member 200 has an opening and closing means 230 which is moved in the vertical direction to open and close the communication portion 212 of the first guide member 210 according to the internal pressure of the reaction unit 110 It is characterized in that it is further provided.

On the other hand, the sterilized electrolytic water production system 1 of the present invention is characterized in that the electrolytic product comprises hypochlorite water (HOCl) or sodium hypochlorite water (NaOCl).

Accordingly, the sterilized electrolyzed water production system of the present invention is devised to solve the above problems, and an object of the present invention is to seal the electrolyte membrane is fastened to the fastening portion of the first transfer line provided with a removable stopper. It is possible to supply the electrolyte safely in the open, there is an advantage that the replacement operation is easy.

In addition, the sterilized electrolytic water production system of the present invention does not need a separate power for rotating the rotating means has the advantage that can be miniaturized in a simple configuration.

In addition, the sterilized electrolyzed water production system of the present invention is opened and closed means when the production of sterilized electrolyzed water is supplied by the electrolytic product to the mixing unit is discharged through the discharge portion of the sterilized electrolyzed water, and some of the raw water introduced through the raw water inlet is reacted It is supplied to the negative electrode to cause an electrode reaction has the advantage to increase the overall sterilized electrolytic water production efficiency.

In addition, when the sterilized electrolytic water production system of the present invention is not required to produce the sterilized electrolytic water, the opening and closing means is closed to block the supply of the electrolyte to the mixing portion and the raw water to the reaction portion to increase the efficiency of the electrolytic product generation inside the reaction portion Therefore, there is an advantage to reduce the electrolyte consumption.

In addition, the sterilized electrolytic water production system of the present invention does not need a separate valve for controlling the inflow of raw water by supplying raw water by the operation of the faucet, and the configuration of the device is simple due to the use of the existing faucet, thereby miniaturizing There is a possible advantage.

1 is a schematic view of a sterile electrolytic water production system according to the present invention.
2 shows the use of a sterile electrolyzed water production system according to the invention.
2A is movable state before fixing the electrolyte reservoir, and FIG. 2B is fixed state.
3 to 5 is a perspective view, an exploded perspective view, and a cross-sectional view of the sterilizing electrolytic water production apparatus according to the present invention.
Figure 6 is a cross-sectional view showing the opening and closing means of the apparatus for producing sterile electrolytic water according to the present invention.
7 is a view showing the internal flow of the sterilized electrolytic water production apparatus according to the present invention.
(Fig. 7a supply only raw water, Fig. 7b supply sterilized electrolytic water mixed raw water and electrolytic products)
8 and 9 is another sectional view of the sterilizing electrolytic water production apparatus according to the present invention.
10 is a step showing a method for producing sterile electrolytic water according to the present invention.

Hereinafter, the sterilized electrolytic water production system 1 of the present invention as described above will be described with reference to the accompanying drawings.

1 is a schematic view showing a sterilized electrolytic water production system 1 according to the present invention. The sterilized electrolytic water production system 1 of the present invention includes a sterilized electrolytic water production apparatus 1000, a faucet 2000, an electrolyte supply apparatus 3000, The raw water supply unit 4000, the power supply unit 5000, and the control unit 6000.

The apparatus for producing sterile electrolyzed water 1000 is an apparatus for producing an electrolytic product by an electrolysis reaction and mixing final raw water to produce final sterile electrolyzed water. In more detail, the positive electrode 111 and the negative electrode 112 are housed and The reaction part 110 in which the electrolytic product is generated by the decomposition reaction, and the electrolytic product generated in the reaction part 110 inside the body 100 are moved upwards, and the raw water inflow part 121 into which the raw water is introduced. And a discharge part 122 through which sterilized electrolytic water mixed with raw water and an electrolytic product are discharged. Mixing unit 120 ; It includes.

Specific configuration of the sterilized electrolytic water production apparatus 1000 will be described again below.

The electrolyte supply device 3000 is a configuration for supplying an electrolyte into the reaction part 110 of the sterilizing electrolytic water production apparatus 1000. An electrolyte storage part 3100 and an electrolyte storage part 3100 in which an electrolyte is stored are provided. And a first transfer line 3200 connecting the body 100 to the body 100, and the first transfer line 3200 has a pump 3300 for easy supply of an electrolyte.

That is, the electrolyte is stored in the electrolyte storage unit 3100, and is moved to the inside of the first transfer line 3200 by the operation of the pump 3300 and supplied to the reaction unit 110.

At this time, the electrolyte reservoir 3100 may be formed in a removable cartridge form.

More specifically, the opening part 3110 of the electrolyte storage part 3100 is first sealed by the sealing membrane 3120, and a fixing part 3130 is formed on an outer circumferential surface of the opening part 3110 to stopper 3140. It is conveyed to the secondary sealed state by).

The electrolyte storage part 3100 has a fastening part 3210 and a shape corresponding to the fixing part 3130 at the other end of the second transfer line 3200 so as to be connected to the first transfer line 3200. A cutout 3220 is formed to cut the sealing membrane 3120 by fastening the fixing part 3130 of the electrolyte storage part 3100 and the fastening part 3210.

In other words, one side of the second transfer line 3200 is connected to the reaction unit 110, and the other side of the second transfer line 3200 is connected to the electrolyte storage unit 3100 by forming the fastening part 3210 and the cutout 3220. do.

In this case, the cutout 3220 may be a tubular member having a sharp end portion at the side contacting the sealing membrane 3120 so that the electrolyte stored in the electrolyte storage 3100 may be easily moved.

Through this, the sterilized electrolytic water production system 1 of the present invention, as shown in Figure 2a, the electrolyte reservoir 3100 is sealed by the sealing membrane 3120 and the stopper 3140 can be safely transported in the form of a cartridge As shown in FIG. 2B, the sealing membrane 3120 is automatically opened / connected to be fastened to the fastening part 3210 of the first transfer line 3200, thereby providing an easy supply of an electrolyte.

That is, the sterilized electrolytic water production system 1 of the present invention can prevent waste of the electrolyte, and has an advantage of stably supplying the electrolyte.

The faucet 2000 is a configuration in which electrolytic sterilization water is supplied by a user's operation, and is connected to the discharge unit 122.

In this case, the faucet 2000 does not need to be separately installed to operate the sterilized electrolytic water production system 1 of the present invention, and the existing faucet 2000 may be used as it is.

Through this, the sterilized electrolytic water production system 1 of the present invention is easy to install, there is an advantage that can simplify the configuration.

The raw water supply unit 4000 is for supplying raw water into the mixing unit 120, and is provided in the second transfer line 4100 and the second transfer line 4100 connected to the raw water inlet unit 121. It is formed including the flow sensor 4200.

The operation of the raw water supply unit 4000 is determined according to whether the user opens or closes the faucet 2000, and accordingly, the sterilized electrolytic water production system 1 of the present invention has a separate valve for supplying the raw water. It is not necessary.

The power supply unit 5000 is configured to supply power by supplying electricity with the positive electrode 111 and the negative electrode 112 in the body 100, and is configured to cause an electrolysis reaction in the reaction unit 110. .

The control unit 6000 is a configuration for controlling the operation of the configuration as described above, the amount of raw water supplied through the flow sensor 4200, and determines the supply amount of the electrolyte according to the pump 3300 It controls the supply of the electrolyte through, and controls the operation of the power supply (5000).

Hereinafter, the sterilized electrolytic water production apparatus 1000 used for the sterilized electrolytic water production system 1 of this invention is demonstrated in detail.

The sterilizing electrolyzed water manufacturing apparatus 1000 is formed to include a body 100, a guide member 200, and a rotating means 300 on which the reaction part 110 and the mixing part 120 are formed.

The body 100 forms the reaction part 110 and the mixing part 120, and is provided with a guide member 200 and a rotating means 300 therein.

At this time, the body 100 is preferably made of a combination of the lower body 102 and the upper body 101 for assembly.

The reaction part 110 is formed in the body 100, and is a space in which the positive electrode 111 and the negative electrode 112 are accommodated to generate an electrolytic product by an electrolysis reaction.

At this time, one side of the reaction unit 110 is formed with a supply portion 113 for supplying an electrolyte, the electrolyte may be diluted hydrochloric acid solution or sodium chloride solution.

The supply unit 113 is connected to the pipe to which the electrolytic object (hydrochloric acid solution or sodium chloride solution) is connected, the pipe is an electrolytic object storage unit for storing the electrolytic object, control means for controlling the supply amount of the electrolytic object, the electrolytic object A pump or the like for supply may be provided.

At this time, when the solution supplied through the supply unit 113 is a hydrochloric acid solution, the reaction below is induced in the reaction unit 110.

Positive electrode (111)

2Cl ^-- 2e → Cl ₂

2H ₂ O-4e → 4H ⁺ + O ₂

Negative Electrode 112

2H ⁺ → H ₂

Mixed reaction

Cl ₂ + H ₂ O ↔ HOCl + HCl

Overall reaction

HCl + H ₂ O → HOCl + H ₂ (gas)

That is, during the electrolysis reaction of hydrochloric acid solution, hypochlorous acid (HOCl), hydrogen gas, and chlorine gas are generated.

In addition, when the solution supplied through the supply unit 113 is a sodium chloride solution, the reaction below is induced in the reaction unit 110.

Positive electrode (111)

2Cl ^- 2e → Cl ₂

2H ₂ O-4e → 4H ⁺ + O ₂

Negative Electrode 112

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 figure, although the supply portion 113 is shown to be located below the lower body 102, the sterilized electrolytic water production system 1 of the present invention is not limited thereto.

The positive electrode 111 and the negative electrode 112 provided in the reaction unit 110 are provided in the height direction so as to increase the contact time with the electrolysis target (hydrochloric acid solution or sodium chloride solution) so as to increase the electrolysis reaction efficiency. It is desirable to.

The mixing unit 120 is provided in the body 100, the electrolytic product generated in the reaction unit 110 is moved to the upper side is a space that is mixed with the raw water and discharged.

The mixing part 120 is formed with a raw water inlet 121 through which raw water is introduced, and a discharge part 122 through which sterilized electrolytic water mixed with raw water and an electrolytic product are discharged.

At this time, the raw water inlet unit 121 is connected to the pipe for supplying raw water, the pipe is a raw water storage unit for storing the raw water, adjusting means for adjusting the supply amount of raw water, pump for supplying raw water, etc. It may be provided.

The sterilizing electrolytic water manufacturing apparatus 1000 may be miniaturized by forming the reaction unit 110 and the mixing unit 120 adjacent thereto, and may have a simple configuration.

The guide member 200 is provided between the reaction unit 110 and the mixing unit 120 so that the electrolytic product in the gas phase is easily moved to the mixing unit 120 while the raw water is guided to the reaction unit 110. It is for the configuration.

The guide member 200 includes a partition plate 211 and a guide plate 221, and in more detail, the first guide member 210 and the first plate member 211 and the guide plate 221, respectively, are formed. It may be formed including a guide member 220.

The first guide member 210 has a partition plate 211 is formed in the lower portion of the mixing portion 120, the communication portion 212 is formed in a predetermined area hollow plate shape, the inside of the upper body 101 It is fixed close to the wall.

The second guide member 220 is fixed in close contact with the inner wall surface of the first guide member 210, is formed to be inclined at an angle below the partition plate 211, the first hollow hole 222 in the inclined lower region ) And the guide plate 221 having the second hollow hole 223 formed thereon is integrally formed.

That is, the first guide member 210 partitions the mixing part 120 and the reaction part 110, and is formed integrally with the partition plate 211 in which the communication part 212 is formed to communicate raw water or gaseous electrolytic products. It is fixed to the inner wall surface of the upper body 101 so as to secure the inner space of the body (100).

In order to clarify the fixing position of the first guide member 210 and increase the fixing force, a protrusion 214 protruding a predetermined area is formed on the circumference of the first guide member 210, and the lower body 102 and the upper part are formed. It is preferable that a recess 103 is formed on one or both sides of the body 101 such that the protrusion 214 is seated.

In the figure, both the seating portion 103 is formed in the upper body 101 and the lower body 102, an example in which a sealing member is further formed on the upper side of the lower body (102).

The second guide member 220 is inserted and fixed inside the first guide member 210, and a lower portion thereof may be supported by an electrode.

At this time, the communication unit 212 of the partition plate 211 may be made of a combination of a plurality of communication holes (212-1).

When the communication unit 212 is composed of a plurality of communication holes (212-1) combination, the gaseous electrolytic product is divided and supplied to the mixing unit 120 has an advantage that can further increase the mixing with the raw water. .

The size of the communication hole 212-1 of the partition plate 211 is advantageous as the size is smaller in order to increase the degree of mixing with the raw water, but when the predetermined size or less, the gas generated in the reaction unit 110 is Since the pressure is not smoothly discharged, the pressure inside the reaction unit 110 is increased, thereby preventing the supply of the electrolyte flowing into the reaction unit 110 through the supply unit 113.

Accordingly, the sterilizing electrolyzed water production apparatus 1000 preferably has a diameter of the communication hole 212-1 of 0.8 mm or more, and an upper limit thereof is divided into hypochlorous acid water or sodium hypochlorite water, chlorine gas, and hydrogen gas. The degree to which it can be done is preferable.

In addition, the communication portion 212 of the partition plate 211 is preferably formed adjacent to the raw water inlet portion 121.

A portion of the raw water introduced through the raw water inlet 121 is introduced into the reaction unit 110, and the remaining raw water has to be mixed with the electrolytic product, so that the communication unit 212 through which the raw water and the electrolytic product are moved is introduced into the raw water. It is formed adjacent to the part 121, the movement can be made smooth.

In addition, the sterilized electrolytic water production system 1 of the present invention may be further provided with opening and closing means 230 for opening and closing the communication portion 212 of the first guide member 210 to prevent waste of the electrolytic product. .

The opening and closing means 230 is moved up and down to open and close the communication unit 212, and a member movable in the up and down direction by the pressure of the reaction unit 110 or not is used. .

The opening and closing means 230 is a "c" shape of the lower side is opened, the first guide member 210 is formed with a space for moving the opening and closing means 230 is seated in the upper and lower directions.

7A illustrates an internal flow when only raw water is supplied, and FIG. 7B illustrates a case where sterile electrolytic water is supplied.

In the figure, the flow of the electrolytic product is indicated by a solid line and the flow of raw water by a dotted line.

Referring to FIG. 7A, when the reaction inside the reaction unit 110 does not occur, the opening and closing unit 230 moves downward by a load to close the communication unit 212, and the raw water inlet unit 121. Raw water introduced through the through is passed through the mixing unit 120 is discharged through the discharge unit 122.

At this time, all of the raw water introduced into the mixing unit 120 through the raw water inlet 121 is discharged through the discharge unit 122.

Referring to FIG. 7B, when the reaction inside the reaction unit 110 occurs, the opening and closing unit 230 is moved upward by the gaseous electrolytic product to open the communication unit 212, and the gaseous electrolytic product is It is moved to the mixing unit 120 through the second hollow hole 223 and the communication unit 212.

A portion of the raw water introduced into the mixing unit 120 through the raw water inlet 121 is supplied to the reaction unit 110 through the open communication unit 212 space and the first hollow hole 222. An electrolytic reaction takes place.

In addition, the remainder is mixed with the gaseous electrolytic product is discharged through the discharge unit 122.

That is, the sterilized electrolyzed water production system 1 of the present invention can prevent unnecessary waste of electrolytic products by using the sterilized electrolyzed water production apparatus 1000 as described above. There is an advantage to maximize the overall sterilization electrolytic water production efficiency.

In addition, the convex portion 231 protruding to be inserted into the communication hole 212-1 of the communication portion 212 may be formed in order to increase the sealing force by the opening and closing means 230. have.

In the case where the convex portion 231 is formed, the communication hole 212-1 and the convex portion 231 are formed to have an inclined shape so as to increase in diameter toward the upper side, so that the opening and closing means 230 is easily formed. It is desirable to move in the upward and downward directions.

In addition, the first catching jaw 232 is formed inside both ends of the opening and closing means 230 to limit the maximum lift height in order to prevent the opening and closing of the opening and closing means 230, the first guide member 210 It is preferable that the second catching jaw 213 corresponding to the first catching jaw 232 is formed on both sides of the.

The rotating means 300 is rotatably formed in the mixing unit 120 to form a vortex, to distribute the electrolytic product evenly throughout the raw water, and to increase the contact time significantly by increasing the contact time .

The rotating means 300 may be formed to include a central axis 301 and a plurality of wings 302 formed around the central axis 301, is provided in the mixing unit 120, the first The guide member 210 may be fixed by the height forming member 215 formed in the height direction.

That is, the height forming member 215 is configured in the height direction so as to connect the central guide 301 of the first guide member 210 and the rotating means 300.

The sterilizing electrolyzed water production apparatus 1000 may be provided with a plurality of rotating means 300 to further increase the degree of mixing.

In FIG. 8, an example in which two rotation means 300 are provided in the width direction is illustrated, and an example in which two rotation means 300 is provided in the height direction is illustrated in FIG. 9.

The apparatus for producing sterile electrolyzed water 1000 does not need a space for mixing raw water or an electrolytic product separately, and is capable of producing sterile electrolyzed water by mixing with raw water and generating an electrolytic product in a single body 100. Or, there is no need for a configuration such as an injector for injecting an electrolytic product and a sparger for increasing the mixing degree, thereby simplifying the composition and dramatically increasing the mixing between the raw water and the electrolytic product.

The rotational power of the rotating means 300 may be separately supplied to the outside by being connected to the outside, and may be formed to be adjacent to the raw water inflow unit 121 through which the raw water is introduced, and may be rotatably formed by the kinetic energy of the raw water. .

On the other hand, the production method of the sterilized electrolytic water production system 1 of the present invention having the characteristics as described above is a raw water supply step (S10); Raw water supply amount checking step (S11); Electrolyte supply step (S20); And sterilizing electrolytic water generation step (S30); It includes. (See FIG. 10)

In the raw water supply step (S10), the user opens the faucet 200 and supplies raw water to the mixing unit 120 through the raw water supply unit 4000 by the operation thereof.

At this time, the raw water supply amount checking step (S11) is a step that is performed during the raw water supply step (S10), in the raw water supply step (S10), to check the amount of raw water supplied through the flow sensor 4200 Step.

The electrolyte supply step (S20) is a step in which the electrolyte is supplied through the first pump 3300 of the electrolyte supply device 3000 according to the raw water supply amount confirmed in the raw water supply amount checking step (S11), at this time, the control unit The first pump 3300 is operated to detect the amount of raw water of the flow sensor 4200 by the 6000 and calculate the required amount of electrolyte and supply the amount thereof.

Of course, in order to perform the electrolyte supply step (S20) in the state in which the fixing portion 3130 of the electrolyte storage portion 3100 and the fastening portion 3210 of the first transfer line 3200 is fastened, the electrolyte storage The electrolyte should be stored inside the part 3100.

The sterilizing electrolytic water generation step (S30) includes an electrolysis step (S31) and an electrolysis step (S31), the electrolysis step (S31) is the inside of the reaction unit 110 through the power supply (5000). Electrolysis of the electrolyte is performed by applying power to the electrodes 111 and 112.

In addition, the mixing step (S32) is a step in which the electrolytic product generated in the reaction unit 110 and the raw water supplied in the mixing unit 120 is mixed.

The raw water supply step (S10) to sterilized electrolyzed water generation step (S30) is a step that proceeds at about the same time (when the inflow of raw water is confirmed, the electrolyte is supplied immediately), but in order to explain the time series, but the present The method for producing sterilized electrolytic water of the invention is not limited thereto.

As described above, the system of the present invention facilitates the supply of hypochlorous acid water and sodium hypochlorite water (electrolyte), maximizes the electrolytic efficiency, improves productivity, and has the advantage of miniaturization by simplifying its configuration. .

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1: sterile electrolyzed water production system
1000: Sterilizing Electrolyzed Water Production Equipment
100: body 101: upper body
102: lower body 103: seating portion
110: reaction part
111: positive electrode 112: negative electrode
113: supply unit
120: mixing portion 121: raw water inlet portion
122: discharge part
200: guide member
210: first guide member 211: partition plate
212: communication part 212-1: communication hole
213: second locking jaw 214: protrusion
215: height forming member
220: second guide member 221: guide plate
222: first hollow hole 223: second hollow hole
230: opening and closing means 231: convex portion
232: first catch jaw
300: rotation means 301: central axis
302: wings
2000: Faucets
3000: Electrolyte Supply Device
3100: electrolyte storage portion 3110: opening portion
3120: sealing film 3130: fixing part
3140: stopper
3200: first transfer line 3210: fastening part
3220: incision
3300: Pump
4000: Raw water supply part 4100: 2nd transfer line
4200 flow sensor
5000: power supply
6000: control unit

Claims (8)

The positive electrode 111 and the negative electrode 112 are accommodated, the reaction unit 110 to generate an electrolytic product by the electrolysis reaction, and the electrolytic product generated in the reaction unit 110 is moved upwards, raw water is introduced Raw water inlet 121, discharge portion 122 for discharging the sterilized electrolytic water mixed with the raw water and the electrolytic product is formed Body to form the horn the engagement 120, 100, the diaphragm 211 has the connection part 212, which is a certain region the hollow of a plate shape to the lower mixing portion 120 of the body 100 formed, the partition The plate 211 is provided to be inclined at a predetermined angle, and is formed to include a guide plate 221 formed with a first hollow hole 222 and a second hollow hole 223 on the lower side, in the reaction unit 110 The generated gaseous electrolytic product is moved upward along the guide plate 221 to guide the member 200 to be moved to the mixing unit 120 through the second hollow hole 223 and the communication unit 212 , and Sterilized electrolytic water production apparatus 1000 including a rotating means 300 is formed and rotated in the mixing unit 120 ;
The opening 3110 is closed is closed by the film 3120, and the electrolyte is stored therein, the opening portion 3110 outer peripheral surface to the fixing 3130 is available is opened and closed by a stopper 3140 to form an electrolyte storage unit of 3100 , one side of which is connected to the reaction part 110, and the other side of the fastening part 3210 and the fixing part 3130 of the electrolyte storage part 3100 corresponding to the fixing part 3130. An electrolyte supply device 3000 including a first transfer line 3200 having a tubular cutout 3220 having an end pointed to cut the sealing membrane 3120 by fastening the fastening part 3210 ;
A faucet 2000 connected to the discharge part 122 ;
A raw water supply unit 4000 connected to the raw water inlet unit 121 of the mixing unit 120 to supply raw water into the mixing unit 120 ;
A power supply unit 5000 that is energized with the positive electrode 111 and the negative electrode 112 to supply power ; And
A control unit 6000 for controlling the operation ; Sterilized electrolytic water production system comprising a.
delete delete The method of claim 1,
The rotating means 300 is sterilized electrolytic water production system, characterized in that rotated by the raw water flowing through the raw water inlet 121.
delete The method of claim 1,
The body 100 is formed by the combination of the lower body 102 and the upper body 101,
The guide member 200 is
A first guide member 210 formed integrally with the partition plate 211 and fixed to the inner wall surface of the upper body 101;
Sterilized electrolytic water production system, characterized in that it comprises a second guide member (220) formed integrally with the guide plate (221) and tightly fixed to the inner wall surface of the first guide member (210).
The method of claim 6,
The guide member 200 further includes an opening and closing means 230 which is moved upward and downward to open and close the communication part 212 of the first guide member 210 according to the internal pressure of the reaction part 110. Sterilized electrolytic water production system, characterized in that.
The method according to any one of claims 1, 4, 6, and 7 , wherein
The electrolytic product is sterilized electrolytic water production system, characterized in that it comprises hypochlorous acid water (HOCl) or sodium hypochlorite water (NaOCl).

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