KR102336749B1 - Apparatus for manufacturing of weakly acidic hypochlorous acid water - Google Patents

Abstract

The present invention relates to an apparatus for producing weakly acidic hypochlorous acid water capable of improving a production efficiency of hypochlorous acid water. An apparatus for producing weakly acidic hypochlorous acid water according to an embodiment of the present invention includes: an electrolytic bath that produces hypochlorous acid water through an electrical reaction of a raw material solution; a raw material solution tank holder that supports a raw material solution tank for supplying the raw material solution to the electrolytic bath; a raw material solution supply unit that supplies the raw material solution to the electrolytic bath from the raw material tank holder; a water supply unit that supplies water to the electrolytic bath; and a control unit that controls operations of the electrolytic bath, the raw material solution supply unit, and the water supply unit. The raw material solution tank holder includes: a container part including a container part inner surface which provides a space in which the raw material solution is carried, and a container part connection groove that provides a path through which the raw material solution inside the container part is discharged to an outlet; a raw material solution outlet through which the raw material solution in the container part is discharged to an outside; and an air inlet that introduces air into the container part.

Description

Apparatus for manufacturing of weakly acidic hypochlorous acid water

The present invention relates to an apparatus for producing non-acidic hypochlorous acid water.

Hypochlorous acid water (HOCl) is known to have a sterilizing effect on viruses and various bacteria, and has recently been used for quarantine due to COVID-19.

Hypochlorous acid water has been approved and approved by the KFDA as a sterilizing disinfectant for food additives and utensils in Korea, and has been approved for use by the US FDA as washing water for fruits and vegetables.

In the method of producing hypochlorous acid water, a dilute hydrochloric acid solution or an aqueous solution adjusted to an appropriate concentration by adding an aqueous sodium chloride solution to the raw material solution is applied in a non-diaphragm electrolyzer to ^{oxidize chlorine ions (Cl -} ) at the anode to chlorine (Cl ₂ ) It becomes and reacts with raw water to produce hypochlorous acid (HOCl), and there is a method of preparing slightly acidic hypochlorous acid water by mixing and diluting it with a large amount of raw water.

As such, in order to produce hypochlorous acid water, a raw material solution must be supplied, and care must be taken not to leak the raw material solution to the outside when supplying or storing the raw material solution in a tank. In addition, in the process of manufacturing by supplying the raw material solution to the electrolyzer, a fixed amount must be supplied.

Korean Patent Application Laid-Open No. 10-2020-0079624, which is a prior art document, discloses an apparatus for producing hypochlorous acid water using dilute hydrochloric acid.

These conventional products had problems in that it was not easy to supply a raw material solution, and they were bulky to be used in a small space such as a home. In addition, since the raw material solution tank is not standardized, there was a problem such as the use of an arbitrarily prepared raw material solution, the hypochlorous acid water was not properly generated or the concentration of the hypochlorous acid water was not constant and impurities were generated. In addition, there was a problem in that it is difficult to control the supply ratio of the raw material solution and the water to be constant, it is difficult to control the amount of residual chlorine contained in the hypochlorous acid water.

Korean Patent Publication No. 10-2020-0079624

An object of the present invention is to provide a raw material solution tank holder that is easy and safe to supply a raw material solution, and an apparatus for producing hypochlorous acid water including the same.

In addition, it is possible to supply a fixed amount to the electrolytic cell, it is possible to increase the production efficiency of hypochlorous acid water.

In addition, since a replaceable raw material solution tank can be used, miniaturization is possible.

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In addition, the purpose of providing an apparatus for producing hypochlorous acid is to maintain a constant flow rate by sensing the flow rate and control the water pipe, and to control the supply amount of the raw material solution to be electrolyzed according to the flow rate to keep the residual chlorine concentration constant step by step. do it with

The raw material solution tank holder according to an embodiment of the present invention is disposed on the inner surface of the container part providing a space in which the raw material solution is supported, and the inner surface of the container part, and the raw material solution inside the container part is discharged to the outlet a container portion including a container portion connection groove that provides a path; a raw material solution outlet for discharging the raw material solution from the container part; and an air inlet for introducing air into the container.

An apparatus for producing hypochlorous acid according to an embodiment of the present invention comprises: an electrolytic cell for producing hypochlorous acid water by an electric reaction of a raw material solution; a raw material solution tank holder supporting the raw material solution tank for supplying the raw material solution to the electrolytic cell; a raw material solution supply unit for supplying the raw material solution from the raw material solution tank holder to the electrolyzer; a water supply unit for supplying water to the electrolyzer; and a control unit for controlling the operations of the electrolytic cell, the raw material solution supply unit, and the water supply unit. The raw material solution tank holder has been described above.

The water supply unit includes a pressure reducing valve for controlling the water pressure of water supplied from the outside, a sol valve for blocking and allowing the supply of water supplied from the pressure reducing valve, a flow control valve for constantly controlling the flow rate of water supplied through the sol valve, It may include a water pressure sensor for measuring the water pressure of water supplied through the flow control valve, and a flow rate sensor for measuring the flow rate of water supplied through the flow control valve.

The raw material solution tank holder and the hypochlorous acid water production apparatus including the same according to an embodiment of the present invention are easy and safe to supply the raw material solution.

In addition, it is possible to supply a fixed amount to the electrolytic cell, it is possible to increase the production efficiency of hypochlorous acid water.

In addition, since a replaceable raw material solution tank can be used, miniaturization is possible.

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In addition, since it is possible to keep the amount obtained constant, it provides a function that the user can select and use according to the purpose by adjusting the amount of the raw material solution in stages to adjust the amount of residual chlorine.

1 shows an apparatus for producing hypochlorous acid according to an embodiment of the present invention.
FIG. 2 illustrates a state in which the outer cover is removed in FIG. 1 .
Figure 3 shows the raw material solution tank and the raw material solution tank holder.
Figure 4 shows the raw material solution tank holder.
Figure 5 shows the movement direction of the air and the raw material solution in the raw material solution tank holder.
6 is a view showing a discharge valve portion of the raw material solution tank.
7 and 8 are cross-sectional views of the raw material solution tank holder.
9 shows an electrolytic cell.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer description, and elements indicated by the same reference numerals in the drawings are the same elements. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions. In addition, "including" a certain element throughout the specification means that other elements may be further included, rather than excluding other elements, unless specifically stated otherwise.

1 shows an apparatus for producing hypochlorous acid 100 according to an embodiment of the present invention, and FIG. 2 shows a state in which the outer cover is removed in FIG. 1 . In FIG. 2 , piping is omitted for clarity of display of each configuration.

1 and 2, the hypochlorous acid water production apparatus 100 according to an embodiment of the present invention includes an electrolytic cell 120 for producing hypochlorous acid water by an electric reaction of a raw material solution; The raw material solution tank holder 110 for supporting the raw material solution tank 10 for supplying the raw material solution to the electrolytic cell 120; a raw material solution supply unit for supplying the raw material solution from the raw material solution tank holder 110 to the electrolytic cell 120; a water supply unit for supplying water to the electrolytic cell 120; and a control unit 130 for controlling the operations of the electrolytic cell 120, the raw material solution supply unit, and the water supply unit.

The raw material solution is capable of forming hypochlorous acid water by the electric reaction, and may be a dilute hydrochloric acid solution or a mixed solution of hydrochloric acid and sodium chloride, but is not particularly limited. The concentration of hydrochloric acid or sodium chloride of the raw material solution may be selected in consideration of the pH of hypochlorous acid water, etc., and is not particularly limited.

9 shows the inside of the electrolytic cell. The electrolytic cell 120 electrically reacts the raw material solution to produce hypochlorous acid water. The electrolytic cell 120 may receive water and a raw material solution from a water supply unit and a raw material solution supply unit, respectively. The electrolytic cell 120 may include a raw material solution inlet 121 receiving the raw material solution and water inlets 122a and 122b receiving water, and as shown in FIG. 2 , water is supplied through two or more inlets. can be imported. In addition, since it includes an anode and a cathode inside, electricity can be applied to the raw material solution to produce hypochlorous acid water. In this case, the prepared hypochlorous acid water may be slightly acidic having a pH of 5.0 or more and less than 6.5.

The electrolytic cell 120 may include a member for mixing hypochlorous acid water and water, a member for removing bubbles generated in the manufacturing process, and the like. The electrolytic cell 120 is not particularly limited as long as it can be used to prepare hypochlorous acid water.

The member for mixing the hypochlorous acid water and water can appropriately control the concentration of the hypochlorous acid water discharged to the outlet pipe 140 by mixing water with the hypochlorous acid water prepared from the raw material solution.

The raw material solution supply unit supplies the raw material solution to the electrolytic cell 120 . To this end, the raw material solution supply unit may include a metering pump 150 . The metering pump 150 may supply a fixed amount of the raw material solution by peristaltic movement of the pipe.

The water supply unit may have a configuration capable of stably supplying water supplied from the outside to the electrolytic cell 120 . Each operation of the water supply unit may be controlled by the control unit 130, and each configuration may be controlled to generate hypochlorous acid water having a desired residual hydrochloric acid concentration. Description of this was described in the description part of the control unit 130 .

In an embodiment of the present invention, a pressure reducing valve 161 , a sol valve 162 , a flow control valve 163 , a water pressure sensor 164 and a flow rate sensor 165 may be included in order to supply more stably. Specifically, the water supply unit includes a pressure reducing valve 161 for reducing the pressure of water supplied from the outside, a sol valve 162 for blocking and allowing the supply of water supplied from the pressure reducing valve 161, and the sol valve 162 . A flow control valve 163 for controlling the flow rate of water supplied through It may include a flow sensor 165 for measuring the flow rate of water. Through this, even when water is supplied at a high pressure from the outside, a required amount of water can be controlled and supplied to the electrolytic cell 120 at an appropriate pressure.

The flow control valve 163 can control the residual hydrochloric acid concentration of the hypochlorous acid water discharged through the outlet pipe 140 into several stages by controlling the flow rate of the water supplied to the electrolytic cell 120 to be easy to control. have. The control unit 130 may control the metering pump 150 based on the flow rate information of water received from the flow control valve 163 to adjust the supply amount of the raw material solution. Through this, the concentration of the hypochlorous acid water discharged through the water outlet pipe 140 can be uniformly controlled by dividing it into several stages, and hypochlorous acid water of a required concentration can be manufactured.

The water pressure sensor 164 may detect that the water pressure is lowered when the hypochlorous acid water is discharged from the water outlet pipe 140 . The control unit 130 receives water pressure information from the water pressure sensor 164 , and transmits an open command to the sol valve 162 when the water pressure is lower than a preset water pressure so that water is supplied to the electrolyzer 120 . can Through this, hypochlorous acid water can be automatically provided to the user without the user inputting a separate operation command.

The pressure reducing valve 161, the sol valve 162, the flow control valve 163, the water pressure sensor 164 and the flow sensor 165 may be used appropriately in consideration of the capacity of the hypochlorous acid water production apparatus 100, etc. and is not particularly limited.

The hypochlorous acid water production apparatus 100 according to an embodiment of the present invention may further include an outlet pipe 140 . The hypochlorous acid water produced in the electrolytic cell 120 may be discharged to the outside through the water outlet pipe 140 . The water outlet pipe 140 may be made of a material that is not corroded by hypochlorous acid, and the material or shape is not particularly limited.

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Hypochlorous acid water production apparatus 100 according to an embodiment of the present invention may further include a control unit (130). The control unit 130 controls the operation of the raw material solution supply unit, the water supply unit, and the electrolytic cell 120 .

The control unit 130 may be a general computer including various semiconductors and electronic components, such as a CPU and a storage semiconductor, and may have electrical components such as semiconductors arranged on a circuit board. The control unit 130 may further include a command button and a display device for the user to control the command to control the operation of each component of the hypochlorous acid water production apparatus 100 or to check information.

As described above, the control unit 130 can control the residual hydrochloric acid concentration of the hypochlorous acid water discharged from the outlet pipe at a constant flow rate by controlling the flow rate control valve 163, and the By controlling the metering pump 150 based on the flow information of the water, the supply amount of the raw material solution can be adjusted so that hypochlorous acid water having a set residual hydrochloric acid concentration can be produced. Through this, the residual hydrochloric acid concentration of the hypochlorous acid water discharged through the water outlet pipe 140 can be constantly controlled, and hypochlorous acid water having a required concentration can be manufactured. In addition, the control unit 130 receives water pressure information from the water pressure sensor 164 , and when the water pressure is lower than a preset water pressure, transmits an open command to the sol valve 162 so that water is supplied to the electrolyzer 120 . can make it happen Through this, hypochlorous acid water can be automatically provided to the user without the user inputting a separate operation command.

For example, an embodiment of the present invention can be set to control the state of hypochlorous acid water, for example, the residual hydrochloric acid concentration contained in hypochlorous acid water in three steps. The user may select the residual hydrochloric acid concentration, and the control unit 130 may control the water supply unit and the raw material solution supply unit to generate hypochlorous acid water that meets the user's request. Specifically, the control unit 130 acquires flow rate information constantly controlled through the flow control valve 163, and through this, a metering pump 150 to generate hypochlorous acid water having a residual hydrochloric acid concentration set by the user. can control the amount of raw material solution flowing into the electrolytic cell. If the user desires hypochlorous acid water with a high concentration, the control unit 130 may increase the amount of the raw material solution supplied through the metering pump 150 to generate hypochlorous acid water with a concentration set by the user.

Hereinafter, the raw material solution tank holder 110 according to an embodiment of the present invention will be described.

3 shows the raw material solution tank 10 and the raw material solution tank holder 110 , and FIG. 4 shows the raw material solution tank holder 110 . 5 is a view showing the movement direction of the air and the raw material solution in the raw material solution tank holder (110). 7 and 8 are cross-sectional views of the raw material solution tank holder 110 .

3 to 8, the raw material solution tank holder 110 according to an embodiment of the present invention is disposed on the inner surface of the container part providing a space in which the raw material solution is supported, and the inner surface of the container part, and , a container part 115 including a container part connection groove 116 that provides a path through which the raw material solution inside the container part 115 is discharged to the outlet; a raw material solution outlet for discharging the raw material solution of the container part 115 to the outside; and an air inlet 113 for introducing air into the container portion 115 .

The container part 115 is a space into which a part of the raw material solution tank 10 is inserted and receives and supports the raw material solution from the raw material solution tank 10 . Referring to FIG. 4 , it includes a bottom surface and a side surface extending from the bottom surface, and the raw material solution may be loaded in the inner space formed by the bottom surface and the side surface. The material of the raw material solution tank holder 110 including the container part 115 may be a polymer material such as PVC or Teflon, and may have chemical resistance.

The container part 115 includes a container part connection groove 116 disposed on the inner surface. The container part connection groove 116 provides a path for discharging the raw material solution therein to the outside. Referring to FIG. 4 , it may be disposed on the side surface of the container part 115 . In addition, the container part connection groove 116 may be arranged to have a constant height from the bottom surface of the container part 115 to the upper part, and through this, the upper part of the container part connection groove 116 is an air inlet connection groove ( 114) to communicate with the container part 115 and the air inlet part 113 to allow the raw material solution and air to move. In addition, a lower portion of the container part connection groove 116 may be connected to the raw material solution outlet to discharge the raw material solution inside the container part 115 to the outside (see FIG. 8 ). In this way, the container part connection groove 116 communicates with the air inlet 113 so that the upper part communicates with the air inlet 113 to move the raw material solution and air, and the lower part communicates with the raw material solution outlet to move the raw material solution. can be smoothly discharged, and the amount of the raw material solution inside the container part 115 can be kept constant.

The raw material solution outlet performs a function of discharging the raw material solution inside the container unit 115 to the outside. In the previous description, the raw material solution discharged through the raw material solution outlet may move to the electrolytic cell 120 through the metering pump 150 . 5 to 8 , the raw material solution outlet may have a shape extending downward from the container part 115 . In addition, it may be disposed at a position connected up and down with the container part connection groove 116 . Through this, it is possible to not only discharge all of the raw material solution inside the container unit 115, but also efficiently discharge the raw material solution.

The air inlet 113 receives air from the outside and functions to move into the container unit 115 . The air inlet 113 has an inner surface of the air inlet providing a space for holding the raw material solution therein, an inlet through which air is introduced into the air inlet 113, and the inside of the air inlet 113 . It may include an air inlet connection groove 114 that provides a path through which the air of the container unit 115 moves into the interior. In addition, the air inlet 113 may further include a backflow prevention member 119 disposed at the inlet to allow the inflow of air but prevent the raw material solution from being discharged to the outside through the inlet.

Referring to FIG. 4 , the inner surface of the air inlet may include a bottom surface and a side surface extending upwardly from the bottom surface and providing an internal space together with the bottom surface. The air inlet connection groove 114 may be disposed on one side of the inner surface, and may be connected to the container connection groove 116 . Through this, the raw material solution inside the container part 115 may move into the air inlet 113 , and the air inside the air inlet 113 may move into the container part 115 . The air inlet 113 has a certain height, and the uppermost position of the air inlet connection groove 114 may be disposed above the maximum water level of the raw material solution supported in the container part 115 and , the position of the lowermost end of the air inlet connection groove 114 may be disposed below the maximum water level of the raw material solution supported in the container unit 115 . In addition, the uppermost position of the container part connection groove 116 may be disposed above the maximum water level of the raw material solution supported in the container part 115 , and the lowermost end of the container part connection groove 116 . The position may be disposed below the maximum water level of the raw material solution supported inside the container unit 115 . In addition, the position of the lowermost end of the area where the air inlet connection groove 114 and the container connection groove 116 communicate is disposed below the maximum water level of the raw material solution supported in the container part 115, and , the position of the uppermost end of the region where the air inlet connection groove 114 and the container connection groove 116 communicate with each other may be disposed above the maximum water level of the raw material solution supported in the container part 115. . Through this, the raw material solution and air can move smoothly.

The backflow prevention member 119 may include a membrane or a valve that allows the fluid to flow in only one direction, and is not particularly limited.

7 and 8, the raw material solution tank holder 110 according to the embodiment of the present invention, by limiting the position where the outlet of the raw material solution tank 10 is inserted into the interior of the container unit 115 The container part 115 may further include a tank stopper 118 for limiting the maximum water level of the raw material solution supported in the interior. When the position of the outlet of the raw material solution tank 10 inserted into the container part 115 by the tank stopper 118 is specified, the raw material solution coming out of the outlet of the raw material solution tank 10 is equal to the height of the outlet. or is discharged to a lower height, through which the height of the raw material solution inside the container part 115 can be maintained constant. In this case, the uppermost position of the air inlet connection groove 114 may be disposed above the lowermost position of the outlet of the raw material solution tank 10 whose insertion position is restricted by the tank stopper 118 .

7 and 8 , in the raw material solution tank holder 110 according to an embodiment of the present invention, the raw material solution is discharged from the raw material solution tank 10 by pressing a valve disposed at the outlet of the raw material solution tank 10 . The container portion 115 may further include a protrusion 117 to be introduced into the interior.

The outlet of the raw material solution tank 10 may include a valve having a structure that is opened by external pressure, and the protrusion 117 presses the valve to turn on the valve. Figure 6 shows a portion of the discharge valve (10a) of the raw material solution tank. Referring to FIG. 6 , a discharge valve 10a may be disposed at the outlet through which the raw material solution is discharged from the raw material solution tank 10 . As the discharge valve 10a is pressed by the protrusion 117 of the raw material solution tank holder 110, the discharge valve 10a is turned on, and the raw material solution in the raw material solution tank 10 is turned on. this is emitted

The shape and size of the protrusion 117 may be designed to an appropriate level for operating the valve of the raw material solution tank 10 and is not particularly limited.

7 and 8, the raw material solution tank holder 110 according to an embodiment of the present invention may further include a tank holder support 112 for fixing the raw material solution tank holder 110 to the present apparatus. have. The tank holder support 112 may be formed to extend in the downward direction of the container part 115 and is not particularly limited.

The present invention is not limited by the above-described embodiments and the accompanying drawings, but is intended to be limited by the appended claims. Therefore, various types of substitution, modification and change will be possible by those skilled in the art within the scope not departing from the technical spirit of the present invention described in the claims, and it is also said that it falls within the scope of the present invention. something to do.

100: hypochlorous acid water production device, 10: raw material solution tank, 10a: discharge valve, 110: tank holder, 111: raw material solution outlet, 112: tank holder support, 113: air inlet, 114: air inlet connection groove, 115: container part, 116: container part connection groove, 117: protrusion, 118: tank stopper, 119: backflow prevention member, 120: electrolytic cell, 121: raw material solution inlet, 122a, 122b: water inlet, 125: hypochlorous acid water outlet , 130: control unit, 140: water outlet pipe, 150: metering pump, 161: pressure reducing valve, 162: sol valve, 163: flow control valve, 164: water pressure sensor, 165: flow sensor, A: maximum height of raw material solution

Claims (6)

Electrolyzer for producing hypochlorous acid water by electroreacting the raw material solution;
a raw material solution tank holder supporting the raw material solution tank for supplying the raw material solution to the electrolytic cell;
a raw material solution supply unit for supplying the raw material solution from the raw material solution tank holder to the electrolytic cell;
a water supply unit for supplying water to the electrolyzer; and
a control unit for controlling the operations of the electrolytic cell, the raw material solution supply unit and the water supply unit;
The raw material solution tank holder,
The container part in which the raw material solution is supported,
a raw material solution outlet for discharging the raw material solution of the container part to the outside; and
Including an air inlet for introducing air into the container portion,
The container part is disposed on the inner surface of the container part and the inner surface of the container part providing a space in which the raw material solution is supported therein, and the container part provides a path through which the raw material solution inside the container part is discharged to the raw material solution outlet. including a connection groove;
The air inlet has an inner surface of the air inlet that provides a space for holding the raw material solution therein, an inlet through which air is introduced into the air inlet, and a path through which the air inside the air inlet moves into the container. Including an air inlet connection groove, which provides a
The air inlet connection groove and the container connection groove communicate with each other,
The inner surface of the air inlet includes a bottom surface and a side surface extending upwardly from the bottom surface and providing an inner space together with the bottom surface, and the air inlet connection groove is on one side of the inner surface. placed,
The raw material solution tank holder further includes a tank stopper for limiting the maximum water level of the raw material solution carried in the container part by limiting the position where the outlet of the raw material solution tank is inserted into the container part,
The position of the uppermost end of the air inlet connection groove is disposed above the lowermost position of the outlet of the raw material solution tank whose insertion position is restricted by the tank stopper,
Hypochlorous acid water production device.
According to claim 1,
The water supply unit,
A pressure reducing valve that reduces the pressure of water supplied from the outside,
a sol valve that blocks and allows the supply of water supplied from the pressure reducing valve;
A flow control valve for controlling the flow rate of water supplied through the sol valve,
A water pressure sensor for measuring the water pressure of water supplied through the flow control valve, and
Which includes a flow sensor for measuring the flow rate of water supplied through the flow control valve,
Hypochlorous acid water production device.
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