KR100984304B1 - Apparatus for making sterilized water and oxygen water - Google Patents

Abstract

PURPOSE: A device for generating sterilized water and oxygen water is provided to generate sterilized water and oxygen water by using sterilization and detergency through ultraviolet rays from an AOP lamp and nano bubbles. CONSTITUTION: A pump takes out water stored in a water tank(10) and discharges water. A water change controller(2) receives water from the pump, changes the water into one of sterilized water or oxygen water, and discharges the changed water. A nano bubble generator(60) changes the sterilized water or oxygen water into nano bubbles and supplies the nano bubbles into the water tank.

Description

Apparatus for Making Sterilized Water and Oxygen Water

The present invention relates to an apparatus for producing sterilizing water and oxygen water, and more particularly, sterilizing water for sterilizing and washing according to a user's selection in one device by using sterilizing and cleaning power using ultraviolet rays generated from nanobubbles and AOP lamps. Or relates to a sterilizing water and oxygen water production apparatus that can conveniently prepare oxygen water for drinking.

In recent years, many new kinds of harmful bacteria and viruses have emerged, threatening human health, and have been used in tools such as vegetables, fruits and fish, water used in swimming pools and fountains, and cups used in public places. There is a need for a method for effectively removing harmful bacteria and the like.

To this end, conventionally, sterilization by chemical methods using chemicals such as chlorine or photochemical methods using ultraviolet rays or ozone is mainly used.

However, in the case of the chemical method, when chemical substances harmful to the human body remain in the food material, these chemicals are absorbed into the human body, and rather harm the health. In the case of the photochemical method, ultraviolet rays or ozone are effectively irradiated. Since the sterilization is possible only within the range, the sterilization capacity and range were very limited.

 Therefore, in recent years, in order to solve this problem, a method of sterilizing by sterilizing water containing sterilizing substances, such as ozone, in large quantities has been mainly used as an industrial method.

However, the method using the sterilizing water does not completely remove foreign substances such as pesticide residues and heavy metals contained in food materials, and furthermore, due to the unpleasant flavor of sterilizing substances such as ozone, In case of drinking water or drinking water directly, there is a problem in that the sterilizing water cannot be used.

The present invention is to solve the problems of the prior art as described above, an object of the present invention is to sterilize and wash according to the user's choice in one device using the sterilization and cleaning power using ultraviolet light generated in the nanobubble and AOP lamp It is to provide a sterilizing water and oxygen water producing apparatus that can conveniently prepare sterilizing water or oxygen water for drinking.

In order to achieve the above object, the apparatus for producing sterilizing water and oxygen water according to the present invention includes a pump unit for extracting and discharging water stored in a water tank unit, and introducing sterilized water which is treated water discharged from the pump unit. Water conversion control unit for converting into one of the sterilized water or oxygen water for drinking and discharge, the nanobubble generating unit for converting the sterilized water or oxygen water into a nano bubble to supply to the water tank portion, the water The conversion control unit is characterized in that the ozone generated by using ultraviolet light is mixed with the treated water and converted into sterilized water, or the ultraviolet light is irradiated to the treated water and converted into oxygen water.

In addition, the water conversion control unit, at least one AOP lamp for emitting ultraviolet rays is installed therein, the ozone generated by the reaction of oxygen contained in the air supplied from the outside through the air supply pipe and the ultraviolet rays inside the ozone discharge pipe The first chamber is discharged through the first chamber, the first chamber is installed so as to form a space irradiated with the ultraviolet rays, one side is connected to the pump portion and the ozone discharge pipe by the water inlet pipe and the other side by the water outlet pipe In the middle of the second chamber connected to the nanobubble generating device and the ozone discharge pipe to convert the treated water into sterilized water, the ozone is supplied to the treated water flowing through the water inlet pipe, In the case of conversion, characterized in that it comprises a sterilization valve that operates to block the ozone.

In addition, it is characterized in that it further comprises a nozzle-type mixer which is installed in the middle of the water inlet pipe and mixes the treated water and ozone to discharge to the second chamber.

In the case of converting the treated water into oxygen water, the nanobubble generator is characterized by converting the oxygen into the nanobubbles by mixing oxygen with the treated water.

In addition, the apparatus for producing sterilizing water and oxygen water according to the present invention is a pump for extracting and discharging the water stored in the water tank unit, the sterilized water or drinking water for sterilization washing by injecting the treated water discharged from the pump unit Water conversion control unit for converting and discharging any one of the oxygen water, and the nanobubble generating unit for converting the sterilized water or oxygen water into the nano bubble to supply to the water tank, wherein the water conversion control unit, It is characterized in that the ozone generated by using the mixed with the treated water to be converted into sterilized water, or OH radicals generated by using the ultraviolet light is mixed with the treated water and converted into oxygen water.

In addition, the water conversion control unit AOP lamp unit including a first AOP lamp that emits ultraviolet light that reacts with oxygen to generate ozone, and a second AOP lamp that emits ultraviolet light that reacts with oxygen or ozone to generate OH radicals. A first chamber in which the AOP lamp is installed inside and discharges ozone or OH radicals generated inside by reacting oxygen contained in the air supplied from the outside through an air supply pipe and the ultraviolet rays through a sterilizing material discharge pipe, and It is installed to form a space independent from the first chamber and irradiated with ultraviolet rays, one side is connected to the pump unit and the sterilizing material discharge pipe by a water inlet pipe and the other side and the nanobubble generating device part by a water outlet pipe And a second chamber connected thereto, wherein the AOP lamp unit flows the water inlet pipe by operating a first AOP lamp when converting the treated water into sterilized water. Is characterized by that if the ozone is supplied to the treatment, conversion to the number of oxygen is by operating the second lamp 2 OH radical AOP is applied.

As described in detail above, the sterilizing water and oxygen water production apparatus according to the present invention, when preparing the sterilizing water for sterilization washing, after mixing ozone generated by ultraviolet light in the treated water and converting it into the form of nanobubbles In the case of preparing oxygen water for drinking, the ozone supply is cut off, and the UV rays are irradiated to the treated water to be sterilized and converted into nanobubbles. By using sterilization and cleaning power using ultraviolet rays there is an advantage that can be conveniently prepared for sterilizing water for cleaning or oxygen water for drinking.

In addition, the apparatus for producing sterilizing water and oxygen water according to the present invention is configured to mix OH radicals generated by ultraviolet light in the treated water when the oxygen water is prepared, thereby further improving the sterilizing effect, and thus drinking oxygen more safely. The advantage is that it can provide a number.

Figure 1 is a schematic diagram showing the overall configuration of the apparatus for producing sterilizing water and oxygen water according to the first embodiment of the present invention,
FIG. 2 is a cross-sectional view taken along AA of the water conversion controller shown in FIG. 1;
3 is a block diagram showing a detailed configuration of the apparatus shown in FIG. 1;
4 is a flowchart showing an operation configuration of the apparatus shown in FIG. 1;
5A and 5B are schematic views showing an operation in the case of producing sterilizing water and oxygen water in the sterilizing water and oxygen water production apparatus according to the second embodiment of the present invention, and
Fig. 6 is a flowchart showing the operation configuration of the apparatus shown in Figs. 5A and 5B.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

(Embodiment 1)

Figure 1 is a schematic diagram showing the overall configuration of the apparatus for producing sterilizing water and oxygen water according to the first embodiment of the present invention, Figure 2 is a cross-sectional view A-A of the water conversion control unit shown in FIG.

Sterilizing water and oxygen water production apparatus 1 according to the present embodiment is a high pressure pump 20, the high pressure pump for discharging and discharging the treated water stored in the water tank 10, the water tank 10 stored treatment water ( 20) a water conversion control unit (2) converting and discharging the treated water discharged from the sterilized water for sterilization or oxygen water for drinking and discharged into the nanobubble, and the sterilized water or oxygen water is converted into nanobubbles. It is configured to include a nanobubble generating device 60 to supply to the water tank (10).

The upper side of the water tank 10 is provided with a water supply pipe 71 through which the treated water is introduced from the outside and a water supply valve 70 for controlling the opening and closing of the water supply pipe 71, and in the middle portion of the water conversion control unit 2. As described later, a drain pipe 73 to which the treated water converted to either sterilizing water or oxygen water is supplied to the outside and a drain valve 72 for controlling the opening and closing of the drain pipe 73 are provided.

In addition, the high pressure pump 20 discharges the treated water stored in the water tank 10 through the intake pipe 11 and discharges the water to the water conversion control unit 2. It can be configured using a variety of known pumps and devices within the scope of performing.

In addition, the water conversion control unit 2 is connected to the high pressure pump 20 by the water inlet pipe (32, 41) and the treated water discharged from the high pressure pump 20 is introduced, the nano by the water outlet pipe 55 It is connected to the bubble generating device 60 includes a sterilizing material generating module 50 for discharging the introduced treated water to the nanobubble generating device (60).

In addition, the water conversion control unit 2 is an air pump 54 for supplying air to the sterilization material generation module 50 through an air supply pipe 51c, sterilization material generation module 50 by using the supplied air. Ozone discharge pipe 31 connected to the water inlet pipe (32, 41) to discharge the ozone generated in, the sterilization valve 30 and the water inlet is installed in the middle of the ozone discharge pipe 31 to supply or block ozone It is configured to further include a nozzle-shaped mixer (40) is installed in the middle of the pipe (32, 41) to mix the treated water flowing through the water inlet pipe (32, 41) and ozone supplied from the ozone discharge pipe (31).

In addition, the sterilizing substance generating module 50 is independent of the tubular first chamber 51 and the first chamber 51 in which at least one AOP lamp 52 emitting ultraviolet λ ₁ is installed. And a tubular second chamber 53 installed to form a space to which the ultraviolet rays are irradiated.

In this case, the AOP (Advanced Oxidation Process) lamp 52 refers to a discharge lamp for disinfecting air or water by emitting ultraviolet rays of a specific wavelength, and when discharge power is applied through the electrode 52a, a quartz tube is formed. The discharge occurs inside to emit ultraviolet light of a specific wavelength.

In this embodiment, the AOP lamp 52 is configured to emit ultraviolet light having a wavelength (for example, 184.9 nm) that generates ozone by reacting with oxygen in the air supplied from the air pump 54.

In addition, the first chamber 51 is in communication with the air supply pipe (51c) at both ends, respectively, an air inlet (51a) through which air is introduced and an air outlet (b) through which the introduced air is discharged through the ozone discharge pipe (31). Is formed.

Therefore, the air (specifically, oxygen) introduced into the first chamber 51 through the air inlet 51a reacts with the ultraviolet ray λ ₁ emitted from the AOP lamp 52 and thus the first chamber 51. Ozone is generated inside the tank, and the ozone is supplied to the treated water flowing through the water inlet pipe (32) via the air outlet (51b) and the ozone discharge pipe (31).

In addition, the second chamber 53 is in communication with the water inlet pipe 41 at both ends, respectively, and passed through the mixture (40 in the case of sterilized water) or the mixture of the treated water and ozone mixed in the mixer 40 A water inlet 53a into which water (in the case of oxygen water) flows in and a water outlet 53b through which the inflowed water is discharged through the water outlet pipe 55 are formed.

Therefore, a mixture of treated water and ozone (in the case of sterilized water) or treated water (in the case of oxygenated water) introduced into the second chamber 53 through the water inlet 53a is diverged from the AOP lamp 52. After being sterilized by irradiation of ultraviolet rays which are discharged through the water outlet 53b and the water outlet tube 55.

In this case, the first chamber is preferably made of a material (for example, a quartz tube) through which light can be transmitted so that water introduced into the second chamber can be sterilized by ultraviolet irradiation.

In addition, in the present exemplary embodiment, the sterilizing substance generating module 50 is formed as a concentric double tube shape as shown in FIG. 2 as an example, but is not limited thereto. It can be implemented in various shapes.

On the other hand, the sterilization valve 30 is preferably implemented as an solenoid valve and the like, as will be described later, the water inlet pipe 32 through the ozone discharge pipe 31 depending on whether the user selects sterilization water or oxygen water. It functions to supply or block the ozone supplied to the flowing treated water.

As described above, the sterilizing water or oxygen water discharged from the water conversion control unit 2 is converted into nanobubbles in the nanobubble generator 60 and then supplied to the water tank 10 through the water supply pipe 61.

In this case, the nanobubble generating device is a variety of known methods (for example, using an orifice plate or a venturi tube, a method of generating by blowing the pressurized air in the water through a fine mesh member or porous plate, vortex water flow It can be preferably implemented by using any one of the method such as to generate).

Detailed operation configuration of the apparatus for producing sterilizing water and oxygen water according to the present embodiment having the above configuration will be described in detail with reference to FIGS. 3 and 4.

The sterilizing water and oxygen water producing apparatus 1 according to the present embodiment, when the user selects either sterilizing water or oxygen water through the function selection unit 110 formed on one side of the outside of the apparatus, a microcomputer installed in the apparatus, etc. The control unit 100 of the AOP lamp 52, the air pump 54, the high pressure pump 20, the sterilization valve 30 and the nanobubble generating device 60 according to the pre-stored control program for the input selection signal The control signal for controlling the operation is transmitted to each of the driving units 120, 130, 140, 150, and 160.

That is, when the user inputs the selection signal through the function selection unit 110 (S10), the control unit 100 determines whether the input signal is the sterilization water selection signal (S20).

If the result of the determination in step S20 is the sterilizing water selection signal, the controller 100 drives the AOP lamp 52 and the air pump 54 to generate ozone in the sterilizing material generation module 50 (S31).

In addition, the controller 100 drives the high pressure pump 20 to take out the treated water from the water tank 10 (S32), and opens the sterilization valve 30 to remove the treated water from the ozone generated in step S31. This is to be supplied (S33).

When the step S33 is completed, the control unit 100 drives the nanobubble generating device 60 so that the sterilizing water can be supplied to the water tank in the form of nanobubbles.

On the other hand, if the result of the determination in step S20 is the oxygen water selection signal, the control unit 100 drives the AOP lamp 52 but not the air pump 54 to generate unnecessary ozone in the sterilizing substance generation module 50. It is prevented (S41).

In addition, the controller 100 drives the high pressure pump 20 to take out the treated water from the water tank 10 (S42), closes the sterilization valve 30, and removes ozone remaining in the ozone discharge pipe 31. Supply to the treated water is prevented (S43).

When the step S43 is completed, the control unit 100 drives the nanobubble generator 60 so that oxygen water can be supplied to the water tank in the form of nanobubbles.

By the above operation, the apparatus for producing sterilizing water and oxygen water according to the present embodiment may produce nanobubble sterilizing water and oxygen water according to a user's selection even with one device.

In this case, the nanobubble refers to a fine bubble having a diameter of a few hundred nanometers (preferably 20 to 50nm) and unlike the normal bubble has a property that is reduced in water and disappears.

As these nanobubbles are known to have negative ions, they are usually combined with positive ions and floated on the surface to remove the dirt, and impurities (such as foreign substances and heavy metals) on the cleaned object by the thermal ultrasonic effect. , Pesticide residues, etc.), increasing dissolved oxygen, improving the growth of vegetables and fruits, and generating free radicals such as OH to disinfect and disinfect harmful chemicals.

Therefore, as in the present embodiment, the sterilizing water containing ozone and generated in the form of nanobubbles is capable of completely removing harmful germs and impurities by adding sterilizing and cleaning effects of the nanobubbles themselves to the strong sterilizing power of ozone. Furthermore, because of its very small nanobubbles, it is possible to sterilize and clean even the invisible or difficult to clean corners, so that it can be used for various purposes, such as at home, agriculture, industrial, fisheries, livestock, etc. It can be used as sterilization and washing water.

In addition, since the sterilized water is rich in dissolved oxygen, it may be used for aseptic cultivation of vegetables or fruits, and may also be used as spring water or hot water supplied to a massage pool as needed.

Furthermore, as in the present embodiment, the oxygen water prepared in the form of nanobubbles can be used for drinking because it does not contain any ozone and is sterilized by ultraviolet irradiation and nanobubbles, and further, the amount of dissolved oxygen by nanobubbles can be used. Because of the large increase, it is possible to provide high quality oxygen water, which is beneficial to the human body and excellent in cooling.

Therefore, the apparatus for producing sterilizing water and oxygen water according to the present embodiment uses high-quality sterilizing water or oxygen water according to the user's choice by using sterilization and cleaning power using ultraviolet rays generated from the nanobubbles and AOP lamps by one device. There is an advantage that it can be manufactured conveniently.

In the present exemplary embodiment, the case in which the steps S31, S32, S33, S50 or the steps S41, S42, S43, S50 are sequentially performed is described as an example, but is not limited thereto.

On the other hand, in the present embodiment, since the nanobubble rises to the top due to the nature of the bubbles, the position of the drainage pipe 73 is preferably higher than that of the water supply pipe 61 so that water containing the nanobubbles can be drained.

In addition, the position of the drain pipe 73 is preferably lower than the water surface of the water tank 10 so that foreign substances decomposed by the nanobubbles and raised to the water surface are not included in the drained water. The upper portion may be provided with a device (eg, drain pump, etc.) for removing the foreign matter and the like floating on the water surface.

In addition, the drain valve 72 is preferably opened after a sufficient time elapses after the water conversion control unit 2 is operated to sufficiently remove the foreign matter and bacteria contained in the treated water.

In addition, the nanobubble generating device 60 may be configured to supply the oxygen to the treated water to form a nanobubble in order to further increase the dissolved oxygen amount when the oxygen supply unit (not shown) to produce oxygen water, This is also the case when preparing sterilized water.

(Second Embodiment)

5A and 5B are schematic views showing an operation when producing sterilizing water and oxygen water in the sterilizing water and oxygen water producing apparatus according to the second embodiment of the present invention, respectively.

The sterilizing water and oxygen water producing apparatus according to the present embodiment is different from the first embodiment because the configuration of the AOP lamp 52 installed inside the first chamber 51 and the operation configuration of the control unit 100 related thereto are different. Hereinafter, the same reference numerals are assigned to the same components, and overlapping descriptions are omitted.

The AOP lamp 52 according to the present embodiment includes a first AOP lamp (not shown) that emits ultraviolet ray λ ₁ that reacts with oxygen to generate ozone when oxygen is produced and oxygen when oxygen water is produced. And a second AOP lamp (not shown) that emits ultraviolet light (λ ₁ ) that reacts with and generates OH radicals.

At this time, the first AOP lamp is a discharge lamp that emits ultraviolet light of 184.9nm as an example, the second AOP lamp is a discharge lamp that emits ultraviolet light of 184.9nm and 253.7nm.

In the case of the second AOP lamp, when the discharge power is applied, argon atoms and mercury atoms are generated inside the quartz tube, and 253.7 nm of ultraviolet rays (λ ₁ ) and 184.9 nm are affected by the impact of the argon atoms and mercury atoms. Ultraviolet rays λ ₂ are generated and emitted to the outside.

Therefore, as described in the first embodiment, when air is introduced into the first chamber 51, oxygen contained in the air is combined with 184.9 nm ultraviolet ray λ ₁ emitted from the second AOP lamp to form ozone (O _3). ), And the generated ozone is photolyzed by 253.7 nm UV (λ ₂ ) emitted from the second AOP lamp to generate OH radicals.

The OH radicals thus produced are non-toxic and harmless to humans. As is known, sterilization and disinfection of all pollutants, oxidative degradation of hardly decomposable organic substances, inhibition of the production of carcinogenic substances (THM) and water quality It has a function to perform bleaching, deodorizing, deodorizing effect and so on.

On the other hand, in the present embodiment, as an example, the second AOP lamp is configured as a discharge lamp that emits ultraviolet light of two wavelengths. On the other hand, the second AOP lamp emits only 253.7 nm ultraviolet light and produces ozone when ozone is produced. Both the first AOP lamp and the second AOP lamp, which generate N, may be driven to generate OH radicals.

However, hereinafter, in the following two cases where OH radicals can be generated (i.e., using discharge lamps emitting two wavelengths of ultraviolet light) to distinguish them from the first AOP lamp that generates ozone, respectively, 184.9 nm and 253.7, respectively. In the case of using a discharge lamp that emits ultraviolet rays of nm together) is referred to as a second AOP lamp for convenience.

Detailed operation of the sterilizing water and oxygen water production apparatus according to the present embodiment having the above configuration will be described in detail with reference to FIG.

When the user inputs a selection signal through the function selection unit 110 (S110), the control unit 100 determines whether the input signal is a sterilization water selection signal according to the present embodiment. Determine (S120).

If the result of the determination in step S120 is the sterilizing water selection signal, the control unit 100 drives the first AOP lamp 52 and the air pump 54 to generate ozone in the sterilizing material generation module 50 (S131).

In addition, the controller 100 drives the high pressure pump 20 to take out the treated water from the water tank 10 (S132), and opens the sterilization valve 30 to remove the treated water from the ozone generated in step S131. This is to be supplied (S133).

When the step S133 is completed, the control unit 100 drives the nanobubble generating device 60 so that the sterilizing water can be supplied to the water tank in the form of nanobubbles.

On the other hand, if the determination result of the oxygen water selection signal in step S120, the control unit 100 drives the second AOP lamp 52 and the air pump 54 to generate OH radicals in the sterilizing material generation module 50. (S141).

In addition, the controller 100 drives the high pressure pump 20 to take out the treated water from the water tank 10 (S132), and opens the sterilization valve 30 to the treated water taken out in step S141. The radical is supplied (S133).

When the step S133 is completed, the control unit 100 drives the nanobubble generator 60 so that the oxygen water can be supplied to the water tank in the form of nanobubbles.

By the above operation, the sterilizing water and oxygen water producing apparatus according to the present embodiment has no unique flavor and excellent sterilizing power when preparing oxygen water, and sterilizes and removes foreign substances by mixing OH radicals harmless to the human body in the treated water. Since there is an advantage that can provide a safer oxygen water.

2: water conversion control unit 20: high pressure pump
30: sterilization valve 40: mixer
50: sterile material generation module 60: nano bubble generator

Claims (8)

A pump unit for extracting and discharging water stored in the water tank unit;
A water conversion control unit for introducing the treated water, which is discharged from the pump unit, into one of sterilizing water for sterilizing or oxygen water for drinking;
Including the nano-bubble generating unit for supplying the water tank to the sterilized water or oxygen water is converted into nanobubbles,
The water conversion control unit, the ozone generated by using ultraviolet light is mixed with the treated water to convert into sterilized water, or the ultraviolet light is irradiated to the treated water to convert into sterilized water and oxygen water Manufacturing equipment. The method of claim 1, wherein the water conversion control unit,
At least one AOP lamp for emitting ultraviolet rays is installed inside, the first chamber for discharging oxygen contained in the air supplied from the outside through an air supply pipe and the ozone generated by the ultraviolet rays through the ozone discharge pipe;
It is installed to form a space independent of the first chamber and irradiated with ultraviolet rays, one side of which is connected to the pump unit and the ozone discharge tube by a water inlet tube, and the other side is connected to the nanobubble generating unit by a water outlet tube. Second chamber; And
A sterilization valve installed in the middle of the ozone discharge pipe to supply the ozone to the treated water flowing through the water inlet pipe when converting the treated water into sterilized water and to shut off the ozone when converted to oxygen water. Sterilizing water and oxygen water production apparatus comprising a. The method of claim 2,
Sterilized water and oxygen water production apparatus characterized in that it further comprises a nozzle-type mixer installed in the middle of the water inlet pipe to mix the treated water and ozone to discharge to the second chamber. The method of claim 3,
In the case of converting the treated water into oxygen water, the nanobubble generating unit is mixed with oxygen in the treated water to convert into nanobubble water and oxygen water producing apparatus. A pump unit for extracting and discharging water stored in the water tank unit;
A water conversion control unit for introducing the treated water, which is discharged from the pump unit, into one of sterilizing water for sterilizing or oxygen water for drinking;
Including the nano-bubble generating unit for supplying the water tank to the sterilized water or oxygen water is converted into nanobubbles,
The water conversion control unit converts ozone generated by using ultraviolet light into the treated water and converts it into sterilized water, or converts OH radicals generated using the ultraviolet light into the treated water and converts it into oxygen water. Sterilizing water and oxygen water production apparatus. The method of claim 5, wherein the water conversion control unit,
An AOP lamp unit including a first AOP lamp that emits ultraviolet rays that react with oxygen to generate ozone, and a second AOP lamp that emits ultraviolet rays that react with oxygen or ozone to generate OH radicals;
A first chamber having the AOP lamp installed therein and discharging ozone or OH radicals generated inside by reacting oxygen contained in air supplied from the outside through an air supply pipe with the ultraviolet rays through a sterilizing material discharge pipe; And
It is installed to form a space independent of the first chamber along the outer circumferential surface of the first chamber, one side is connected to the pump unit and the sterilizing material discharge pipe by a water inlet pipe and the other side of the nanobubble generating device by a water outlet pipe Including a second chamber connected to,
The AOP lamp unit operates the first AOP lamp when converting the treated water into sterilized water so that ozone is supplied to the treated water flowing through the water inlet pipe and operates the second AOP lamp when converting the treated water into oxygen water. Sterilizing water and oxygen water production apparatus, characterized in that so that the OH radicals are supplied. The method of claim 6,
Sterilized water and oxygen water production apparatus characterized in that it further comprises a nozzle-type mixer installed in the middle of the water inlet pipe and mixes the ozone or OH radicals in the treated water to discharge to the second chamber. The method of claim 7, wherein
In the case of converting the treated water into oxygen water, the nanobubble generating unit is further mixed with oxygen to a mixture of the treated water and OH radicals to convert into nanobubbles, characterized in that the sterilized water and oxygen water producing apparatus.

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