KR20200103346A - Manufacturing apparatus of aqueous solution of chlorine dioxide - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing chlorine dioxide water, which manufactures chlorine dioxide water by making chlorite react with acid. The apparatus for manufacturing chlorine dioxide water comprises: a reaction tank (10) having first and second injection holes (11, 12), through which chlorite and acid are supplied respectively, formed on one side such that chlorite and acid supplied through the first and second injection holes (11, 12) react to produce chlorine dioxide gas, and having a gas discharge tube (13), through which the produced chlorine dioxide gas is discharged, formed on the other side; a first raw material supply unit (20) connected to the first injection hole (11) of the reaction tank (10) to supply chlorite; a second raw material supply unit (30) connected to the second injection hole (12) of the reaction tank (10) to supply acid; a water supply line (40) including water transfer tubes (41, 42) for transferring water supplied from the outside and a chlorine dioxide water transfer tube (43) branched from the water transfer pipes (41, 42), connected with the gas discharge tube (13) of the reaction tank (10) at one side, and transferring chlorine dioxide water produced by dissolving the chlorine dioxide gas discharged through the gas discharge tube (13) in water; a three-way valve (50) for selectively opening and closing a flow path of the water transfer tube (42) of the water supply line (40) or a flow path of the chlorine dioxide water transfer tube (43); and a control unit (90) for controlling operation of the three-way valve (50).

Description

Manufacturing apparatus of aqueous solution of chlorine dioxide}

The present invention relates to an apparatus for producing chlorine dioxide water, and more particularly, it is possible to selectively use a general water supply and chlorine dioxide water, and by generating chlorine dioxide water having a different concentration depending on the sterilization target and use, the sterilization power can be adjusted and safety It relates to an apparatus for generating chlorine dioxide with improved convenience and convenience.

In general, chlorine-based disinfectants such as sodium hypochlorite are widely used as disinfectants, but chlorine-based disinfectants, as known, produce carcinogens such as trihalomethane (THMs), which are disinfectant by-products, which are not only harmful to the human body, but also In the case of discharge, there is a problem that causes environmental pollution. As a substitute for the chlorine-based disinfectant having such a problem, interest in chlorine dioxide is increasing. Chlorine dioxide, unlike chlorine-based disinfectants, is an oxygen-based disinfectant, does not produce the above-described carcinogens, and is used in various ways, such as sterilization of effluent water in sewage treatment plants, sterilization of foods such as fruits and vegetables, and swimming pool sterilization.

Such chlorine dioxide is prepared by various methods, among which, chlorine (Cl) and sodium chlorite (NaClO2) are reacted, or acids such as hydrochloric acid (HCl) and sulfuric acid (H2SO4) and sodium chlorite (NaClO2) are reacted. A method of generating chlorine dioxide gas by making it and reacting the generated chlorine dioxide gas with water to generate chlorine dioxide water is widely used. A conventional apparatus for producing chlorine dioxide using such a manufacturing method includes a reaction tank for generating chlorine dioxide gas by inputting the raw materials and reacting, and a discharge pipe for discharging the chlorine dioxide gas generated in the reaction tank, and the end of the discharge pipe By installing in communication with a water supply pipe supplying water, chlorine dioxide gas discharged through the water supply pipe is dissolved in water to produce chlorine dioxide water.

However, when the chlorine dioxide water production device is connected to the water supply pipe as in the prior art, only chlorine dioxide water is provided, so the user has no choice but to use chlorine dioxide water even when sterilization and disinfection such as drinking or showering is unnecessary, thus unnecessarily wasting raw materials such as sodium chlorite There is a problem that the user convenience is deteriorated. In addition, in the conventional apparatus for producing chlorine dioxide water, the chlorine dioxide gas discharged from the reaction tank is continuously dissolved in the water of the water supply pipe, but there is a problem that the concentration of chlorine dioxide changes when the flow rate is changed. That is, as is well known, chlorine dioxide can be used as drinking water only below the standard value, but even if the flow rate decreases, chlorine dioxide gas is continuously injected, so the concentration of chlorine dioxide exceeds the reference value, which is harmful to the human body, so there is a problem in safety. . In addition, when the flow rate is increased, the concentration of chlorine dioxide decreases, so that the sterilizing power is lowered than the required sterilizing power.

Korean Patent Publication No. 10-1092818

The present invention is to solve the above-described problems, and an object of the present invention is to reduce the waste of raw materials since it is possible to use water suitable for various purposes by allowing general water supply and chlorine dioxide water to be used according to the user's selection. As the concentration of chlorine dioxide water can be adjusted, it is possible to manufacture chlorine dioxide water with a concentration that is not harmful to the human body, thereby improving safety and providing sufficient sterilization power required. As the water discharge cycle is extended by increasing the storage space, the raw material supply unit can be installed compactly, and the general water supply and chlorine dioxide water are discharged through a single discharge stage to make it compact, so installation is easy. The objective is to provide an apparatus for producing chlorine dioxide water, which allows the reaction to proceed more quickly and thus to produce chlorine dioxide water more quickly.

According to a feature of the present invention, in the apparatus for producing chlorine dioxide water to produce chlorine dioxide water by reacting chlorite and acid, first and second injection ports 11 and 12 are formed at one side to supply chlorite and acid, respectively. The reaction tank 10 is provided with a gas discharge pipe 13 through which the generated chlorine dioxide gas is discharged by reacting the chlorite and acid supplied to the first and second injection ports 11 and 12 to generate chlorine dioxide gas. ); A first raw material supply unit 20 connected to the first inlet 11 of the reaction tank 10 to supply chlorite; A second raw material supply unit 30 connected to the second inlet 12 of the reaction tank 10 to supply acid; Water transfer pipes 41 and 42 through which water supplied from the outside is transferred, branched from the water transfer pipes 41 and 42, and a gas discharge pipe 13 of the reaction tank 10 is connected to one side thereof, and a gas discharge pipe 13 A water supply line 40 including a chlorine dioxide water transfer pipe 43 through which the chlorine dioxide gas discharged through is dissolved in water and the generated chlorine dioxide water is transferred; A three-way valve 50 selectively opening and closing the flow path of the water transfer pipe 42 of the water supply line 40 or the flow path of the chlorine dioxide water transfer pipe 42; And a control unit 90 for controlling the operation of the three-way valve 50. An apparatus for producing chlorine dioxide solution is provided.

According to another feature of the present invention, the first pump 23 for controlling the amount of chlorite supplied to the reaction tank 10 from the first raw material supply unit 20, and the reaction tank 10 in the second raw material supply unit 30 A concentration measuring sensor that measures the chlorine dioxide concentration of the chlorine dioxide water that is provided with a second pump 33 that controls the amount of acid supplied to the water supply line 40, and the chlorine dioxide transfer pipe 42 of the water supply line 40 The apparatus for producing chlorine dioxide water, characterized in that the control unit 90 controls the operation of the first pump 23 or the second pump 33 by receiving a signal from the concentration measuring sensor 60, provided with 60 Is provided.

According to another feature of the present invention, the lower side of the reaction tank 10 protrudes to the side so that the inner diameter is enlarged compared to the upper side, and an extension portion 14 is formed in which water generated by reacting chlorite and acid is stored, The first and second storage tanks 21 and 31 in which chlorite and acid of the first and second raw material supply units 20 and 30 are stored are installed above the expansion part 14 of the reaction tank 10. An apparatus for producing chlorine dioxide water is provided.

According to another feature of the present invention, the discharge end of the chlorine dioxide water transfer pipe 43 of the water supply line 40 is coupled in communication with one side of the water transfer pipe 42, and water is transferred to the chlorine dioxide water transfer pipe 43. An apparatus for producing chlorine dioxide water is provided, characterized in that a check valve 70 is provided for preventing water flowing through the pipe 42 from flowing into the chlorine dioxide water delivery pipe 43.

According to another feature of the present invention, an air inlet pipe 81 that penetrates the upper surface of the reaction tank 10 and extends downwardly, and the air inflow pipe 81 provided at the lower end of the air inlet pipe 81 is provided in a bubble form. A bubble stirring means 80 including a porous bubble generator 82 that is converted into a porous bubble generator 82 and an air filter 83 provided on the upper end of the air inlet pipe 81 and provided on the outside of the reaction tank 10 to filter foreign substances There is provided an apparatus for producing chlorine dioxide water, characterized in that further provided.

As described above, according to the present invention, when sterilization such as drinking or showering is not necessary, the general water discharged through the water transfer pipes 41 and 42 is used, and when sterilization such as fruit washing is required, the chlorine dioxide transfer pipe ( Since chlorine dioxide water discharged through 43) can be used, chlorine dioxide water, which is general water supply and sterilization water, can be selectively used depending on the purpose of use, so that raw materials that generate chlorine dioxide are prevented from wasting and user convenience is improved. . In addition, since the conventional water supply and chlorine dioxide water are selectively discharged through a single hydrant, there is no need to create a separate hydrant, thereby reducing cost and simplifying construction. At this time, a check valve 70 that prevents the general water discharged through the water transfer pipes 41 and 42 from flowing into the chlorine dioxide water transfer pipe 43 is provided. The concentration of chlorine water is prevented from being lowered than the required concentration, and thus sufficient sterilizing power required for the object to be sterilized is obtained.

And by measuring the concentration of chlorine dioxide according to the flow rate through the concentration measuring sensor 60 and the flow meter 45 provided in the chlorine dioxide transport pipe 43, by adjusting the supply amount so that the chlorite and acid are in an appropriate ratio, harmful to the human body. Since it is possible to manufacture chlorine dioxide water with a concentration that does not exceed the standard value, safety is improved, and sterilization power can be controlled by adjusting the concentration of chlorine dioxide water, so when different sterilization power is required depending on the sterilization target, purpose, and purpose of use, Since it can provide suitable sterilizing power, sterilization can be effectively performed. On the other hand, the first and second raw material supply parts 20 and 30 for forming an expanded part 14 with an expanded inner diameter under the reaction tank 10 and supplying chlorite and acid are provided with the expansion part 14 of the reaction tank 10. ) By installing it on the upper side, the storage space of the water generated in the reaction tank 10 is increased, so that the water discharge cycle is increased, so that the operation convenience is improved, and the reaction tank 10 and the first and second raw material supply units 20 and 30 are integrated. Since the overall device volume is reduced, it becomes compact, so installation becomes easy. On the other hand, since foreign matter in the reaction tank 10 converts the external air filtered through the air filter 83 into bubbles to increase the diffusion rate, the reaction rate in the reaction tank 10 increases, so that the chlorine dioxide water can be produced more quickly. have.

1 is a schematic diagram showing an embodiment of an apparatus for producing chlorine dioxide water according to the present invention
2 is a view showing a reaction tank and a raw material supply unit of the above embodiment
Figure 3 is a state diagram in which the raw material supply unit is separated from the reaction tank in Figure 2
4 is a block diagram of the above embodiment

Objects, features, and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 4 are views showing an apparatus for producing chlorine dioxide water according to an embodiment of the present invention. As shown, in the apparatus for producing chlorine dioxide water according to an embodiment of the present invention, chlorite and acid react to generate chlorine dioxide gas, and a reaction tank 10 provided with a gas discharge pipe 13 on one side thereof, and the reaction tank ( The first raw material supply unit 20 and the second raw material supply unit 30 respectively supplying chlorite and acid to 10), and the water transfer pipes 41 and 42 and the water transfer pipes 41 and 42 are branched from the above. A water supply line 40 including a chlorine dioxide water transfer pipe 43 connected to the end of the gas discharge pipe 13 of the reaction tank 10, and a three-way valve 50 provided at a branch of the water supply line 40 And a control unit 90 for controlling the three-way valve 50.

The reaction tank 10 has first and second injection ports 11 and 12 through which chlorite and acid are supplied, and the chlorite and acid supplied through the first and second injection ports 11 and 12 react, and chlorine dioxide Gas is produced. In addition, a gas discharge pipe 13 through which the generated chlorine dioxide gas is discharged is provided on the other side of the reaction tank 10. In addition, when the water produced by the reaction of chlorite and acid exceeds a certain level, the space required for the reaction between the chlorite and acid is reduced, so that the water produced by the reaction must be periodically discharged. ) Is provided with a drain pipe 17 configured to discharge the water, and a valve 18 is provided in the drain pipe 17. At this time, the reaction tank 10 is provided with a water level sensor (19a, 19b) for detecting the level of water.

And the lower side of the reaction tank 10 is formed with an expansion part 14 protruding laterally so that the inner diameter is expanded compared to the upper side, and the expansion part 14 discharges water generated by the reaction of chlorite and acid as described above. Temporarily stored before. At this time, since the space in which water is temporarily stored is expanded through the expansion unit 14, a larger amount of water can be stored, so that the time required for the reaction of chlorite and acid to be reduced is extended. In order to secure space, the water discharge cycle for discharging water becomes longer, making it more convenient for the operator to manually discharge water. As shown in FIG. 3, the expansion part 14 has a shape that protrudes in both directions opposite from the lower side of the reaction tank 10 to form a rectangular cross section, and the upper surface of the expansion part 14 has a planar shape. On the other hand, the reaction tank 10 is preferably made of a material capable of absorbing the expansion pressure of a gas generated during the reaction of chlorite and acid, for example, a material such as soft PE.

The first raw material supply unit 20 supplies chlorite to the reaction tank 10, and is provided in a first storage tank 21 in which chlorite is stored, and the reaction tank 10 is provided in the first storage tank 21. It includes a first raw material supply pipe 22 connected to the first inlet 11 of. The chlorite may be an alkali metal salt of chlorite, such as sodium chlorite, potassium chlorite, and lithium chlorite, or an alkaline earth metal salt of chlorite, such as calcium chlorite, magnesium chlorite, and barium chlorite. In addition, the first raw material supply pipe 21 is provided with a first pump 23 capable of controlling the supply and supply amount of chlorite.

The second raw material supply unit 30 supplies acid to the reaction tank 10, and is provided in the second storage tank 31 in which the acid is stored, and the second storage tank 31 It includes a second raw material supply pipe 32 connected to the injection port 12. As the acid, inorganic acids such as hydrochloric acid, sulfuric acid, and nitric acid, organic acids such as formic acid and acetic acid, or salts thereof may be used. In addition, the second raw material supply pipe 32 is provided with a second pump 33 capable of controlling the supply and supply amount of acid.

As shown in FIG. 2, the first raw material supply unit 20 and the second raw material supply unit 30 are installed above the expansion unit 14 of the reaction tank 10. At this time, on the upper surface of the expansion part 14 of the reaction tank 10, a support wall part in the form of surrounding part of the side surfaces of the first and second storage tanks 21 and 31 of the first and second raw material supply parts 20 and 30 ( 15) is projected upward, and the mounting groove 16 in which the first and second storage tanks 21 and 31 are stably installed is formed by the support wall 15. In addition, it is preferable that a connector (not shown) is provided on the bottom surfaces of the first and second storage tanks 21 and 31 and the upper surface of the expansion portion 14 of the reaction tank 10 to be coupled to each other. Accordingly, as described above, the discharge cycle of water generated in the reaction through the expansion portion 14 of the reaction tank 10 is extended to improve work convenience, and the first and second raw material supply units 20 and 30 are provided in the reaction tank 10 It is installed on the upper side of the expansion part 14 of the unit, so that the overall volume is reduced and it becomes more compact, so installation is easy. On the other hand, in the first and second storage tanks 21 and 31 of the first and second raw material supply units 20 and 30, auxiliary water level detection sensors 24 and 34 for detecting the level of the stored raw material, and when raw materials are insufficient It is provided with an unshown notification means to let you know this through visual or auditory sense.

The water supply line 40 is branched from a water transfer pipe 41 and 42 for transferring water supplied from the outside, and a gas discharge pipe of the reaction tank 10 at one side of the water transfer pipe 41 and 42 It includes a chlorine dioxide water transfer pipe 43 for transferring the chlorine dioxide water generated by dissolving the chlorine dioxide gas discharged through the gas discharge pipe 13 by connecting the discharge end of 13). In this case, a flow meter 45 is provided in the chlorine dioxide water transfer pipe 43. In addition, the water transfer pipe 41 is provided with a strainer 46 for filtering foreign substances, and the strainer 46 is provided with a temperature sensor 47 and a heater 48 to prevent freezing. Meanwhile, an auxiliary flow meter 44 may be provided in the water transfer pipe 42 as well.

On the other hand, although the discharge end of the water transfer pipe 42 and the discharge end of the chlorine dioxide transfer pipe 43 may be made separately, as shown in FIG. 1, the discharge end of the chlorine dioxide transfer pipe 43 is a water transfer pipe 42 ) Is coupled in communication, it is preferable to configure water and chlorine dioxide to be discharged to one discharge end, for example, one hydrant. At this time, the chlorine dioxide water transfer pipe 43 is provided with a check valve 70 that prevents the water transferred through the water transfer pipe 42 from flowing into the chlorine dioxide water transfer pipe 43, and the chlorine dioxide transfer pipe 43 ), the concentration of the chlorine dioxide water flowing through is prevented from decreasing. On the other hand, the connection portion of the chlorine dioxide water transfer pipe 43 connected to the discharge end of the gas discharge pipe 13 of the reaction tank 10 is formed in a venturi shape, so that the chlorine dioxide gas can be easily dissolved in water.

On the other hand, the apparatus for producing chlorine dioxide water according to an embodiment of the present invention includes a concentration measuring sensor 60 for measuring the chlorine dioxide concentration of the chlorine dioxide water transferred to the chlorine dioxide water transfer pipe 43 of the water supply line 40. More is provided. The measured chlorine dioxide concentration measured by the concentration measuring sensor 60 is sent to the control unit 90. At this time, the concentration of chlorine dioxide that is not harmful to the human body is approximately 0 to 30 PPM, as is well known.

The three-way valve 50 is provided in a branched portion of the water supply line 40 to selectively open and close the water transfer pipe 42 and the chlorine dioxide water transfer pipe 43. When the user presses the selection switch 91 to select one of water and chlorine dioxide water, the three-way valve 50 selectively selects the water transfer pipe 42 and the chlorine dioxide transfer pipe 43 by the control unit 90. It is opened and closed.

The control unit 90 controls the concentration of chlorine dioxide to be 0 to 30 PPM. That is, the signal for the concentration of chlorine dioxide measured by the concentration measuring sensor 60 is received, and the concentration of the chlorite and acid supplied to the reaction tank 10 based on the amount of water accumulated by the second flow meter 45 is The amount of supply of chlorite and acid is controlled by controlling the first and second pumps 23 and 33 of the first and second raw material supply units 20 and 30 so as to achieve an appropriate ratio. At this time, by allowing the concentration of chlorine dioxide to be selected in several stages through the selection switch 91, the sterilizing power can be selected and used in several stages, such as strong, medium, and weak, depending on the purpose of cleaning and sterilization.

And the control unit 90 controls the operation of the three-way valve 50 so that water is selectively transferred from the water supply line 40 to the water transfer pipe 42 and the chlorine dioxide transfer pipe 43 through the selection switch 91. do. In addition, when the valve 18 installed in the drain pipe 17 of the reaction tank 10 is a solenoid valve, the control unit 90 receives the signal from the water level sensor 19a, 19b of the reaction tank 10 and When the water level of the generated water exceeds or is less than or equal to a certain level, the opening and closing operation of the valve 18 is controlled. Meanwhile, the operation of the heater 48 is controlled by receiving a signal from the temperature sensor 47 of the water supply line 40. On the other hand, the amount of supply of chlorite and acid stored in the first and second raw material supply units 20 and 30 by receiving signals from the auxiliary water level detection sensors 24 and 34 of the first and second raw material supply units 20 and 30 If this is insufficient, the operation of the notification means is controlled.

The apparatus for producing a chlorine dioxide solution according to an embodiment of the present invention is further provided with a bubble stirring means (80). The bubble stirring means 80 penetrates the upper surface of the reaction tank 10 and extends downward to the inside, and is provided at the lower end of the air injection pipe 81 to convert the input air into a bubble form. It includes a porous bubble generator 82 and an air filter 83 located outside the reaction tank 10 and provided at an upper end of the air injection pipe 81 to filter foreign substances. As the air introduced from the outside is diffused more rapidly by the bubble stirring means 80, the reaction rate between chlorite and acid increases, so that the amount of chlorine dioxide gas is increased compared to the unit time, so that the chlorine dioxide water is more rapidly Can provide.

In the apparatus for producing chlorine dioxide water according to an embodiment of the present invention configured as described above, the chlorine dioxide gas generated by the reaction of chlorite and acid in the reaction tank 10 is discharged to the water supply line 40 through the gas discharge pipe 13. In addition, the water transferred to the water transfer pipes 41 and 42 flows through the chlorine dioxide water transfer pipe 43 opened by the three-way valve 50 and is mixed with chlorine dioxide gas to generate chlorine dioxide water. Is discharged. At this time, when the user wants to use normal water supply, when the three-way valve 50 opens the water transfer pipe 42 through the selection switch 91, the water supply is discharged to the water supply.

On the other hand, the concentration of the chlorine dioxide water changes when the flow rate of the chlorine dioxide water transfer pipe 43 of the water supply line 40 is changed compared to the constant supply of the chlorine dioxide gas, the flow meter 45 and the concentration measuring sensor 60 Detects this and sends a signal to the control unit 90, the control unit 90 of the first pump 23 of the first raw material supply unit 20 and/or the second pump 33 of the second raw material supply unit 30 By controlling the operation, the supply of chlorite and/or acid is controlled so that the chlorite and acid are supplied in an appropriate ratio, thereby providing the required concentration of chlorine dioxide water. Therefore, even if the flow rate is changed, the required concentration of chlorine dioxide water can always be provided, so that the sterilizing power is prevented from exceeding the standard value or lower than the required sterilizing power, so that a sufficient sterilizing effect can be obtained without being harmful to the human body.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and various substitutions, modifications and changes are possible within the scope of the technical spirit of the present invention. It will be obvious to those who have the knowledge of.

10: reaction tank 13: gas discharge pipe
14: extension part 17: drain pipe
20: first raw material supply unit 23: first pump
30: second raw material supply unit 33: second pump
40: water supply line 41,42: water transfer pipe
43: chlorine dioxide water transfer pipe 45: flow meter
50: 3-way valve 60: concentration measuring sensor
70: check valve 80: bubble stirring means
90: control unit 91: selection switch

Claims (5)

In the chlorine dioxide water production apparatus for producing chlorine dioxide water by reacting chlorite and acid,
At one side, first and second injection ports 11 and 12 are formed to supply chlorite and acid, respectively, and chlorine dioxide gas is generated by reacting chlorite and acid supplied to the first and second injection ports 11 and 12. , A reaction tank 10 provided with a gas discharge pipe 13 through which the generated chlorine dioxide gas is discharged on the other side;
A first raw material supply unit 20 connected to the first inlet 11 of the reaction tank 10 to supply chlorite;
A second raw material supply unit 30 connected to the second inlet 12 of the reaction tank 10 to supply acid;
Water transfer pipes 41 and 42 through which water supplied from the outside is transferred, branched from the water transfer pipes 41 and 42, and a gas discharge pipe 13 of the reaction tank 10 is connected to one side thereof, and a gas discharge pipe 13 A water supply line 40 including a chlorine dioxide water transfer pipe 43 through which the chlorine dioxide gas discharged through is dissolved in water and the generated chlorine dioxide water is transferred;
A three-way valve 50 selectively opening and closing the flow path of the water transfer pipe 42 of the water supply line 40 or the flow path of the chlorine dioxide water transfer pipe 42; And
And a control unit (90) for controlling the operation of the three-way valve (50). The method of claim 1, wherein the first pump (23) controls the amount of chlorite supplied to the reaction tank (10) from the first raw material supply unit (20), and from the second raw material supply unit (30) to the reaction tank (10). A second pump 33 for controlling the amount of acid supplied is provided, and a concentration measuring sensor 60 for measuring the chlorine dioxide concentration of the chlorine dioxide water transferred to the chlorine dioxide transfer pipe 42 of the water supply line 40 ) Is provided, and the control unit 90 controls the operation of the first pump 23 or the second pump 33 by receiving a signal from the concentration measuring sensor 60. The method of claim 1 or 2, wherein the lower side of the reaction tank 10 protrudes laterally so that the inner diameter is enlarged compared to the upper side, and an expansion part 14 is formed in which water generated by reacting chlorite and acid is stored, , The first and second storage tanks 21 and 31 in which chlorite and acid of the first and second raw material supply units 20 and 30 are stored are installed on the upper side of the expansion part 14 of the reaction tank 10. An apparatus for producing chlorine dioxide water, characterized by. According to claim 1 or 2, The discharge end of the chlorine dioxide water transfer pipe (43) of the water supply line (40) is coupled in communication with one side of the water transfer pipe (42), and the chlorine dioxide transport pipe (43) has water An apparatus for producing chlorine dioxide water, characterized in that a check valve 70 for preventing water flowing through the transfer pipe 42 from flowing into the chlorine dioxide water transfer pipe 43 is provided. The method of claim 1 or 2, wherein an air inlet pipe (81) extending downwardly through the upper surface of the reaction tank (10) and a lower end of the air inlet pipe (81) to bubble the introduced air. Bubble stirring means (80) comprising a porous bubble generator (82) that changes into a shape, and an air filter (83) provided on the outside of the reaction tank (10) and provided on the upper end of the air inlet pipe (81) to filter out foreign substances An apparatus for producing chlorine dioxide water, characterized in that further provided.

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