KR20040064256A - Water Purifying System Generating Disolved Oxygen - Google Patents

Abstract

PURPOSE: An oxygen generating water purifying system is provided to produce purified water containing dissolved oxygen of high concentration by installing an oxygen generation promoting device along with an oxygen generator in a water purification system consisting of various filters. CONSTITUTION: The oxygen generating water purifying system comprises a water purification part(100) for supplying the purified water into the dissolved oxygen water storage tank by purifying water supplied from water supply pipe using filters(110); an oxygen generation part(200) for supplying oxygen component into mixing nozzle in the oxygen dissolving promotion part by separating oxygen component only from air and water; a dissolved oxygen water storage tank(300) in which purified water supplied from the water purification part and dissolved oxygen water supplied from the oxygen dissolving promotion part are mixed and stored, at an upper part of which a flow balancing tank(310) for controlling flux of dissolved oxygen water mainly stored is installed, and at a lower part of which a cooling tank(320) for separately discharging dissolved oxygen water having high dissolved oxygen content is installed so that the flow balancing tank and the cooling tank are separated by Teflon sealing film(330) and connected with each other by check valve(340); an oxygen dissolving promotion part(400) in which a mixing nozzle(410) for injecting oxygen supplied from the oxygen generation part onto dissolved oxygen water circulated from the cooling tank of the dissolved oxygen water storage tank is installed to further increase dissolved oxygen content of the dissolved oxygen water; a cooling part(500) for cooling dissolved oxygen water in the cooling tank of the dissolved oxygen water storage tank; and a control part(600) for sensing a water level of dissolved oxygen water stored in the dissolved oxygen water storage tank with the control part being connected to a power supply (W), controlling operation and stopping of the oxygen generation part according to height of the sensed water level, controlling supply of purified water to the flow balancing tank of the dissolved oxygen water storage tank from the water purification part, and controlling opening and closing of drain cock (C) at the same time.

Description

Water Purifying System Generating Disolved Oxygen}

The present invention relates to a water purification system equipped with an oxygen generator, and is provided to produce a purified water containing a high concentration of dissolved oxygen by providing an oxygen generation accelerator with an oxygen generator in a water purification system composed of several filters. The present invention relates to an oxygen generation constant system.

In recent years, as people's incomes have increased and their living standards have improved, the desire to purify not only drinking water but also general living water, such as washing water, or the desire to use high-quality water with functionalities such as ionized water, alkaline water, and soft water has increased. In recent years, in response to the growing demand, household appliances such as water purifiers, water softeners, ionizers, oxygen water machines, bidets, and the like have recently been in the spotlight.

It is a water purification system that is essential components for home appliances such as water purifiers, water softeners, ionizers, oxy-hydrogen generators, bidets, and the like.

In addition, a sterilization apparatus for sterilizing water, which is almost essential to the water purification system, is a sterilization apparatus that performs water sterilization. This sterilization operation mainly uses a chemical sterilizer represented by chlorine, or ozone, ultraviolet rays, ultrasonic waves, and electrolysis. And the like using sterilizers.

Recently, the oxygen generator which sterilizes water by increasing the dissolved oxygen concentration of purified water is widely used as a kind of sterilizer. When oxygen is contained in water, the sterilization action and the human body when drinking It is known to have an effect of promoting internal moisture absorption effect, actively maintaining metabolism, and prolonging the storage period by delaying the corruption of the manufactured drinking water or beverage.

In addition, the oxygen water to enhance the dissolved oxygen content is used in the production of sports functional drinks containing oxygen, and in recent years is known to have a cosmetic effect is also used as a cosmetic beauty water.

Various oxygen generating water purification system is also disclosed as a prior art in the existing patent and utility model, for example, in Korea Patent Publication No. 2003-67015 (2003. 08. 14), hollow fiber membrane type or flat plate A compact oxygen generating water purification system including an oxygen generator of a type membrane type and a mixer of an diffuser, an acid stone, a plate, or an orifice type has been disclosed.

In addition, Korean Patent Publication No. 2004-14146 (February 14, 2004) discloses an attempt to improve oxygen dissolved amount and recycle oxygen not dissolved in water by providing an auxiliary oxygen dissolving tank together with an oxygen dissolving tank. , Korean Patent Laid-Open Publication No. 2003-61592 (July 22, 2003), an oxygen dissolving device is configured in an oxygen dissolving device, and a circulation pump and an oxygen dissolving device are formed in an oxygen dissolving circulation line to dissolve oxygen at atmospheric pressure. Attempts have been made to dissolve, dissolve, and drink in a supersaturated concentration several times greater than the oxygen concentration.

In addition, the Republic of Korea Patent Publication No. 2004-00849 (2004. 01. 07), combined with the air pump for supplying oxygen to the water of the water tank and the cover formed with the intake hole, the battery cover and the switch formed on the top of the cover There has been disclosed an attempt to produce oxygen water even in a portable bucket.

In addition, according to the Republic of Korea Patent Publication No. 2003-93699 (December 11, 2003), the oxygen generation and the oxygen supply device composed of an oxygen supply unit including an oxygen supply unit provided with an oxygen generator to configure the transparent display window so that the user can check outside Water purifiers have been disclosed.

In addition, according to Korean Patent Publication No. 2004-14050, a bath having an anion / ozone / oxygen generator for generating oxygen together with an anion and ozone, and a mixing tank for supplying the generated anion, ozone and oxygen to the injection nozzle, The multifunctional bath is configured to supply oxygen water as water, and disclosed in Korean Patent Laid-Open Publication No. 2003-25643, an oxygen separation membrane module having an improved performance by adding an organometallic compound to a membrane made of a polymer solvent. It has been disclosed for an oxygen-generating oral irrigator that is configured to produce oxygen water and provide it to an oxygen supply tube.

However, the prior art in the patent / utility model as described above is insufficient in the oxygen generating effect itself, the oxygen water production efficiency is lowered, or in the case of a bucket, such as the device is too large and the price is increased due to the disadvantage of the actual utilization, or The complex structure of the device not only requires special skills for installation and operation, but also causes the risk of failure, and continues to operate regardless of the current use or the flow rate of the oxygen water produced and stored in the tank, which wastes energy and operates accordingly. It has one or more of the disadvantages, such as fear of raising costs.

Therefore, the configuration of the device is simple, so that it can be compactly implemented, and the practical use is high, and the configuration is also simple, requiring no special technology for installation and operation, there is no fear of failure, and whether it is currently used or manufactured and stored in the tank By determining whether or not to operate in conjunction with the flow rate of the oxygen water, it is possible to save energy consumption and increase the operating cost accordingly, and it can be said that it is a time point that the emergence of the oxygen generating water purifier that the dissolved oxygen generation amount is greatly improved.

The present invention is to overcome the problems of the prior art as described above, the object is that the configuration of the device is simple and can be implemented in a compact and at the same time high practical application, and does not require any special skills for installation and operation It is to provide an oxygen generating water purifier with no fear of failure, low operating costs, and basically a large amount of dissolved oxygen generation.

The present invention for this purpose, using a filter, the water purification unit for supplying the water supplied from the water supply pipe to the oxygen water storage tank; An oxygen generator for separating only oxygen components from the air and supplying the oxygen to the mixing nozzle in the oxygen dissolution accelerator; It is a place where the purified water supplied from the water purification unit and the oxygen water supplied from the oxygen promotion accelerator are mixed and stored, and the upper flow rate adjusting tank which controls the flow rate of the stored oxygen water and the oxygen water having high dissolved oxygen content are separated. An oxygen water storage tank configured to be separated by a Teflon sealing membrane and communicated by a check valve at a lower portion of the cooling tank for discharge; An oxygen dissolved accelerator for further increasing the dissolved oxygen content of the oxygen water by incorporating a mixing nozzle for injecting oxygen supplied from the oxygen generator into oxygen water circulated from the cooling tank of the oxygen water storage tank; A cooling unit for cooling the oxygen water in the oxygen water storage tank cooling tank; And detecting the level of oxygen water stored in the oxygen water storage tank connected to the power supply and controlling the operation / stop of the oxygen generating unit according to the height of the detected water level and controlling the supply of purified water from the water purification unit to the flow rate adjusting tank of the oxygen water storage tank. And the control unit for controlling the opening and closing of the drain cock at the same time.

1 is a block diagram showing the configuration of an oxygen generation constant system according to the present invention,

2 is a cross-sectional view showing a specific embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: water purification unit 110: filter

200: oxygen generator 210: oxygen separator

220: air filter 230: outlet

240: oxygen pressure regulator 250: solenoid valve

300: oxygen water storage tank 310: flow rate adjustment tank

311: float valve 312: magnet

313: water level sensor 314: bacteria prevention filter

320: cooling tank 330: Teflon sealing film

340: check valve 400: oxygen dissolved accelerator

410: mixing nozzle 420: oxygen dissolved promotion chamber

430: hydraulic regulator 500: cooling unit

510: evaporator 520: radiator

530: condenser 540: compressor

600: control unit 610: reed switch

W: Power P: Pump

The present invention relates to an oxygen generating system, preferably an oxygen generating water purification system for a water purifier, and may be used in any device including a water purifier as well as an anion generator, a water softener, a humidifier, a bidet, and the like. An oxygen generation constant system.

Specifically, the present invention is configured to perform the sterilization by oxygen hydration of water by having an oxygen generator, and to control the production and supply of oxygen water at low and full water levels by introducing an automatic water level control system in the oxygen water storage tank. The present invention relates to an oxygen generation constant system.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings, but the present invention is not intended to be limited thereto.

1 is a block diagram showing the configuration of the oxygen generation constant system according to the present invention, Figure 2 is a cross-sectional view showing a specific embodiment of the present invention.

As shown in FIG. 1, the oxygen generation water purification system of the present invention includes: a water purification unit 100 that supplies water to an oxygen water storage tank 300 by purifying water supplied from a water pipe using a filter 110; An oxygen generator 200 for separating only oxygen components in air / water and supplying them to the mixing nozzle in the oxygen dissolution accelerator; The purified water supplied from the water purification unit 100 and the oxygen water supplied from the oxygen promotion accelerator 400 are mixed and stored, and the flow rate adjusting tank 310 of the upper part which serves to regulate the flow rate of the stored oxygen water is dissolved in the upper part. An oxygen water storage tank 300 having a lower cooling tank 320 for isolating and discharging oxygen water having a high oxygen content by being separated by a Teflon sealing membrane 330 and communicating by a check valve 340; Oxygen to further increase the dissolved oxygen content of oxygen water by incorporating a mixing nozzle 410 for injecting oxygen supplied from the oxygen generator 200 into oxygen water circulated from the cooling tank 320 of the oxygen water storage tank 300. Dissolution promoting unit 400; Cooling unit 500 for cooling the oxygen water in the oxygen water storage tank 300, the cooling tank 320; And connected to a power source (W) to detect the level of oxygen water stored in the oxygen water storage tank 300 and control the operation / stop of the oxygen generator 200 according to the height of the detected water level and the oxygen water storage tank at the water purification unit. The control unit 600 controls the supply of purified water to the flow rate adjusting tank 310 and the opening and closing of the drain cock C.

Referring to the configuration of the present invention oxygen generation constant system configured as described above in more detail with reference to the embodiment of the present invention shown in FIG.

As shown in Figure 2, in the present invention, the purified water unit 100 is composed of one or more filters 110 for filtering and purifying the water to be supplied, which may be used as a sediment filter, activated carbon filter, In general, one or more types of filters commonly used in water purifiers, such as UF hollow fiber membrane (or R / O) filters and ceramic cluster filters, may be used.

The raw water supplied from the tap water is basically purified by removing the suspended substances, turbidity, odor and taste causing substances while passing through the filters of the water purification unit 100 provided as described above.

The oxygen generator 200 is a device for separating the oxygen in the air by using the oxygen separator 210 of the air / water, such as oxygen separation membrane module, for purifying and supplying the air / water supplied for separation The air filter / water filter 220 and the discharge port 230 for discharging the gas, such as nitrogen, hydrogen, except oxygen, and the like, and is generated and supplied to the pipeline going to the oxygen dissolution accelerator 300 mixing nozzle 310 An oxygen pressure regulator 240 for controlling the pressure of the oxygen to be and a solenoid valve 250 for controlling the supply amount is configured.

The oxygen water storage tank 300, which adjusts the flow rate of the stored oxygen water, is connected to the purified water supply pipe from the water purification unit 100, and is provided on the upper surface of the tank 310 according to the water level. A float valve 311 having a magnet 312 attached / detached to the control unit 600 reed switch 610 attached to an upper surface thereof is built-in; A water level sensor 313 is configured to measure and detect the water level in the tank in three stages of full water level / mid water level / low water level; The upper one side is formed of a Teflon antibacterial filter 314 having a pore size of 0.3 μm or less through which air and water do not pass.

In the present invention, the bacteria prevention filter 314 is a kind of air vent (Air Vent), the air can be freely inflow and outflow, but under the atmospheric pressure of water and bacteria under the size of the porous vent is difficult to pass through the inflow of bacteria It is provided to have a feature to prevent the.

The oxygen water storage tank 300 containing the high concentration of oxygen dissolved in the cooling tank 320 is connected to the drain pipe for discharging oxygen water for use by the user, the outer surface of the cooling to cool the oxygen water in the tank Evaporator 510 of the unit 500 is mounted.

The flow rate adjustment tank 310 and the cooling tank 320 are isolated by a Teflon closed membrane 330 of 0.3 μm of pores. When the pressure of the cooling tank 320 increases, the sealing film 330 serves as a diaphragm. By absorbing a certain amount of pressure at this time, the diameter of the micropores with the expansion of the surface area is larger than the molecular cluster of water so that the water can move to the upper flow control tank 310, the flow control tank 310 and the cooling tank 320 ), If the pressure balance is constant, the sealing membrane 330 will have a safety function of absorbing excessive pressure by achieving equilibrium.

On the other hand, in the present invention, the flow rate adjustment tank 310 and the cooling tank 320 is in communication with each other by the check valve 340, where the check valve 340 is closed when the cooling tank 320 is filled with oxygen water. As such, when the cooling tank 320 is full and the check valve 340 is closed, as described above, the adjustment operation by the sealing membrane 330 is performed.

In the present invention, the oxygen dissolution accelerator 400 is a cooling tank 320 is a part of the oxygen water discharged interposed in the middle of the drain pipe to the drain cock (C) from the oxygen water storage tank 300 cooling tank 320 The oxygen content of oxygen water in the cooling tank 320 is increased by injecting oxygen supplied from the oxygen generator 200 into the oxygen water recycled by using the mixing nozzle 410 while extending the residence time by recycling the same. In addition to the role to further increase, in addition to the mixing nozzle 410 is provided with a pump (P) for imparting a driving force to the oxygen water recirculation and a number of multi-tubular dissolver (static mixer) is dissolved oxygen content of the oxygen water passing through It further comprises an oxygen dissolution promotion chamber 420 to further increase and a pressure regulator 430 for controlling the water pressure of the oxygen water being recycled.

The oxygen dissolution promotion chamber 420 for increasing the dissolved oxygen of the purified water by increasing the friction force between the oxygen and the purified water is obtained through a single pipe, passes through a plurality of static mixers, and then merges into one pipe again. It consists of a multi-tubular dissolver (static mixer), in which the KM Seies Static Mixer of Kenics ^® was used.

In the present invention, the cooling unit 500 is provided in close contact with the outer wall of the oxygen water storage tank 300, the evaporator 510 for performing heat exchange by the evaporation of the refrigerant, to cool the refrigerant after the heat exchange again The radiator 520, a condenser 530 for condensing the cooled refrigerant again, and a compressor 540 for providing a driving force to the device.

In the present invention, the control unit 600, the power (W), the reed switch 610, the water level sensor 313, the oxygen generator 200, the solenoid valve 250 and the drain cock (C) is connected Are constructed; When the oxygen water storage tank 300 becomes full, the float valve 311 is closed and the magnet 312 is attached to the reed switch 610 to detect this to stop the operation of the oxygen generator 200 and at the same time the solenoid valve 250. ), The water level is lowered to open the float valve 311 and the magnet 312 falls off the reed switch 610 to detect this and to start the oxygen generator 200 again and at the same time to open the solenoid valve 250 One step operation control; When the high water level signal is transmitted by the water level sensor 313, it stops the operation of the oxygen generator 200 and at the same time closes the solenoid valve 250, and the medium water level signal is detected by the water level sensor 313. When it is delivered, it detects this to operate the oxygen generator 200 and at the same time open the solenoid valve 250, when the low water level signal is transmitted by the water level sensor 313 detects the operation of the oxygen generator 200 And a microprocessor (not shown) for performing a two-stage operation control which includes controlling the solenoid valve 250 and the drain cock C to be closed at the same time.

Referring to the operation of the oxygen water generation system of the present invention configured as described above in detail.

First, the water supplied to the purified water unit 100 is filtered and filtered through one or more filters 110 and then supplied to the flow rate adjusting tank 310 of the oxygen water storage tank 300.

On the other hand, the air supplied to the oxygen generating unit 200 is separated by oxygen only while passing through the oxygen separation device is supplied to the oxygen dissolution promoting unit 400 mixing nozzle 410.

In this way, the oxygen supplied from the oxygen generator 200 is sprayed through the oxygen dissolution accelerator 400, the mixing nozzle 410, and then rapidly dissolved through the static mixer constituting the oxygen dissolution accelerator 420, By mixing, the dissolved oxygen content of the oxygen water recycled from the cooling tank 320 is increased.

In the present invention, the oxygen water stored in the cooling tank 320 is recycled through the oxygen dissolution accelerator 400 so as to have a high concentration of oxygen water containing 80 ppm or more of oxygen.

The prepared oxygen water is stored in the oxygen water storage tank 300 including the flow rate adjustment tank 310 and the cooling tank 320, and in particular, in the cooling tank 320, the cooling function by the cooling unit 500 is applied to the dissolved oxygen. More oxygen is stored in the content and can be provided to the user through the drain cock (C) as needed.

At this time, when the water level in the oxygen water storage tank 300 becomes the full water level, the float valve 311 is closed and the magnet 312 is attached to the reed switch 610, the control unit 600 detects this oxygen generator 200 At the same time stop the operation of the solenoid valve 250 is closed.

On the other hand, when the water level is lowered and the float valve 311 is opened and the magnet 312 falls from the reed switch 610, the control unit 600 detects this and starts the oxygen generator 200 again and at the same time the solenoid valve 250 Will open.

In addition, when the oxygen water level in the oxygen water storage tank 300 becomes a high water level, the high water level signal is transmitted to the control unit 600 by the water level sensor 313, and when the high water level signal is transmitted, the control unit 600 The microprocessor (not shown) detects this to stop the operation of the oxygen generator 200 and at the same time closes the solenoid valve 250.

Next, when the oxygen water level in the oxygen water generation reservoir 300 is the medium water level, the water level signal is transmitted to the control unit 600 by the water level sensor 313, and when the water level signal is transmitted in this way, the control The microprocessor (not shown) of the unit 600 detects this, operates the oxygen generator 200, and simultaneously controls the opening of the solenoid valve 250 and the drain cock C.

Next, when the water level of the oxygen water generation reservoir 300 is a low water level, the low water level signal is transmitted to the control unit 600 by the water level sensor 313, and when the low water level signal is transmitted, the control unit 600. The microprocessor (not shown) detects this and determines that it is a singular situation and stops the operation of the oxygen generator 200 and controls the solenoid valve 250 and the drain cock C to be closed.

Such control of the control unit 600 increases the energy efficiency of the system by preventing the operation of the oxygen generating unit 200 which is not necessary for full water, and stops the operation of the system when a situation such as a single water is generated. It prevents the cause of the failure caused by the excessive force in the.

On the other hand, in the present invention, two pressure regulators, that is, the oxygen pressure regulator 240 and the hydraulic regulator 430 is used, the oxygen water mixing nozzle is configured so that the pressure of the supplied oxygen is always maintained greater than the pressure of the oxygen water. To prevent backflow.

By completing the present invention as described above, using the filter 110, the purified water unit 100 for supplying purified water to the oxygen water storage tank 200 purified water; An oxygen generator 200 separating only oxygen components from the air and supplying them to the mixing nozzle in the oxygen dissolution accelerator; The purified water supplied from the water purification unit 100 and the oxygen water supplied from the oxygen promotion accelerator 400 are mixed and stored, and the flow rate adjusting tank 310 of the upper part which serves to regulate the flow rate of the stored oxygen water is dissolved in the upper part. An oxygen water storage tank 300 having a lower cooling tank 320 for isolating and discharging oxygen water having a high oxygen content by being separated by a Teflon sealing membrane 330 and communicating by a check valve 340; Oxygen to further increase the dissolved oxygen content of oxygen water by incorporating a mixing nozzle 410 for injecting oxygen supplied from the oxygen generator 200 into oxygen water circulated from the cooling tank 320 of the oxygen water storage tank 300. Dissolution promoting unit 400; Cooling unit 500 for cooling the oxygen water in the oxygen water storage tank 300, the cooling tank 320; And connected to a power source (W) to detect the level of oxygen water stored in the oxygen water storage tank 300 and control the operation / stop of the oxygen generator 200 according to the height of the detected water level and the oxygen water storage tank at the water purification unit. (300) An oxygen generation water purification system composed of a control unit 600 for controlling the supply of purified water to the flow rate adjusting tank 310 and controlling the opening and closing of the drain cock C can be provided.

By the completion of the present invention, the configuration of the device is simple and can be compactly implemented, at the same time high practical availability, does not require special technology for installation and operation, there is no fear of failure, low operating cost, basically dissolved Not only did the amount of oxygen be greatly improved, but it was also able to save energy consumption by determining whether it is currently used or operating in conjunction with the flow rate of the oxygen water produced and stored in the tank, thus reducing the operating cost. Therefore, it is possible to provide an oxygen generation water purification system.

Claims (10)

Water purification unit 100 for supplying to the oxygen water storage tank 200 to purify the water supplied from the water pipe, etc. using the filter 110; An oxygen generator 200 for separating only oxygen components from air / water and supplying them to the mixing nozzle in the oxygen dissolution accelerator; The purified water supplied from the water purification unit 100 and the oxygen water supplied from the oxygen promotion accelerator 400 are mixed and stored, and the flow rate adjusting tank 310 of the upper part which serves to regulate the flow rate of the stored oxygen water is dissolved in the upper part. An oxygen water storage tank 300 having a lower cooling tank 320 for isolating and discharging oxygen water having a high oxygen content by being separated by a Teflon sealing membrane 330 and communicating by a check valve 340; Oxygen to further increase the dissolved oxygen content of oxygen water by incorporating a mixing nozzle 410 for injecting oxygen supplied from the oxygen generator 200 into oxygen water circulated from the cooling tank 320 of the oxygen water storage tank 300. Dissolution promoting unit 400; Cooling unit 500 for cooling the oxygen water in the oxygen water storage tank 300, the cooling tank 320; And Detected the level of oxygen water stored in the oxygen water storage tank 300 is connected to the power (W) and controls the operation / stop of the oxygen generator 200 according to the height of the detected water level and the oxygen water storage tank ( 300) characterized in that the control unit 600 for controlling the supply of purified water to the flow rate adjustment tank 310 and at the same time to control the opening and closing of the drain cock (C), Oxygen Generation Constant System. The method of claim 1, As the filter 110 of the water purification unit 100, at least one of a sediment filter, an activated carbon filter, an UF hollow fiber membrane (or R / O) filter, and a ceramic cluster filter is used. Oxygen Generation Constant System. The method of claim 1, Oxygen generator 200, the oxygen separator 210 for separating the oxygen in the air / water using the oxygen separation membrane module, air filter / water filter 220 for purifying and supplying the air / water supplied for separation To control the supply pressure and the oxygen pressure regulator 240 for controlling the pressure of the oxygen supplied to the outlet to discharge the gas excluding the oxygen 230, and the oxygen dissolution promoting unit 300, the mixing nozzle 310 Characterized in that configured to include a solenoid valve 250, Oxygen Generation Constant System. The method of claim 1, Oxygen water storage tank 300 flow rate adjustment tank 310 is connected to the purified water supply line from the water purification unit 100, and attached to the control unit 600 reed switch 610 provided on the outer surface of the tank 310 according to the water level A float valve 311 having a magnet 312 attached / detached on the upper surface thereof is built-in; A water level sensor 313 is configured to measure and detect the water level in the tank in three stages of full water level / mid water level / low water level; Characterized in that the Teflon antibacterial filter 314 having a pore size of 0.3㎛ or less to pass through the air without passing water and bacteria on one side, Oxygen Generation Constant System. The method of claim 1, Bacterial prevention filter 314, the air can be freely inlet and outflow, but under the atmospheric pressure conditions, the water and bacteria are difficult to pass through the size of the porous vent is characterized in that the air vent (Air Vent) to prevent the inflow of bacteria Made, Oxygen Generation Constant System. The method of claim 1, The pores of the Teflon sealing membrane 330 is characterized in that 0.3㎛, Oxygen Generation Constant System. The method of claim 1, The oxygen dissolution accelerator 400 recycles a part of the oxygen water discharged from the oxygen water storage tank 300 in the cooling pipe 320 toward the drain cock C to be discharged to the cooling tank 320. Extending the residence time and spraying oxygen supplied from the oxygen generator 200 to the recycled oxygen water using the mixing nozzle 410 to further increase the dissolved oxygen content of the oxygen water in the cooling tank 320. As a role; The mixing nozzle 410 for injecting oxygen supplied from the oxygen generating unit 200, the pump P for imparting a driving force to the oxygen water recirculation, and a plurality of multi-tubular dissolvers (static mixers) are provided to pass the oxygen water. Characterized in that it comprises an oxygen dissolved promotion chamber 420 to further increase the dissolved oxygen content of the, and a pressure regulator 430 for adjusting the water pressure of the recycled oxygen water, Oxygen Generation Constant System. The method of claim 7, wherein Oxygen dissolution promotion chamber 420, it is obtained by a single pipe is passed through a plurality of static mixers and then joined to one pipe characterized in that it is composed of a multi-tubular dissolver (static mixer), Oxygen Generation Constant System. The method of claim 1, The cooling unit 500 is provided in close contact with the outer wall of the oxygen water storage tank 300, the evaporator 510 for performing heat exchange by the evaporation of the refrigerant, the radiator 520 for cooling the refrigerant after the heat exchange again, Characterized in that it consists of a condenser 530 for condensing the cooled refrigerant again and a compressor 540 to give a driving force to the device, Oxygen Generation Constant System. The method of claim 1, The control unit 600, the power switch (W), the reed switch 610 is attached to the upper outer surface of the flow adjustment tank 310, the water level sensor 313, the oxygen generator 200, the solenoid valve 250 and It is configured in connection with the drain cock (C); When the oxygen water storage tank 300 becomes full, the float valve 311 is closed and the magnet 312 is attached to the reed switch 610 to detect this to stop the operation of the oxygen generator 200 and at the same time the solenoid valve 250. ), The water level is lowered to open the float valve 311 and the magnet 312 falls off the reed switch 610 to detect this and to start the oxygen generator 200 again and at the same time to open the solenoid valve 250 One step operation control; When the high water level signal is transmitted by the water level sensor 313, it stops the operation of the oxygen generator 200 and at the same time closes the solenoid valve 250. When it is delivered, it detects this to operate the oxygen generator 200 and at the same time open the solenoid valve 250, when the low water level signal is transmitted by the water level sensor 313 detects the operation of the oxygen generator 200 Characterized in that it comprises a microprocessor (not shown) for performing a two-step operation control consisting of controlling to close the solenoid valve 250 and the drain cock (C) at the same time, Oxygen Generation Constant System.