KR102283541B1 - Handpiece type electrolyzed water generating device including electrodes - Google Patents

Abstract

The present invention relates to a handpiece-type electrolyzed water generation device including an electrode. The device comprises: a supply water pipe (110); an electrolyzer unit (120); a discharge header unit (130); and a control device unit (140). According to the present invention, the unstable half-life of generated electrolyzed water is minimized, and thus the effect of the electrolyzed water is not reduced.

Description

Handpiece-type electrolyzed water generator including electrodes

The present invention relates to an electrolyzed water generating device, and more specifically, electrolyzing the supplied water flowing into the handpiece-type generating device including the electrode so that the electrolyzed water generated after electrolysis can be directly discharged through the outlet for use. It relates to a handpiece-type electrolyzed water generator including an electrode.

In general, electrolyzed water is water obtained by applying electrical force to general water such as tap water or groundwater, and can be divided into acidic water and alkaline water. When the anions of water collect on the positive (+) side of water through electricity, it becomes acidic water, and when positive ions collect on the negative (-) side, it becomes alkaline water. Such acidic water is used for food freshness and tableware sterilization, alkaline water is used for washing and cleaning purposes due to its high protein and fat decomposition properties, and electrolyzed water is used for various chemical substances such as sterilization, disinfectant, deodorant, detergent, beauty water, and drinking water. It is widely used as a substitute.

In particular, among the electrolyzed water produced by electrolysis of water, hypochlorous acid water, sodium hypochlorite, hydrogen water, and the like are widely used as sterilizing and disinfecting agents. In other words, sodium hypochlorite solution is sold as a product (lax) as a sterilizing disinfectant that is easy to encounter in daily life, and hypochlorous acid water is sold at a high price as disinfectant water and an eco-friendly sterilizing disinfectant. It has also been used as a high-performance sterilizing agent, and hydrogen water or drinking water is used for cosmetic and edible purposes.

As such, electrolyzed water can obtain a product through electrolysis and chemical reduction processes, and the structure of the electrolyzer is a structure in which two electrodes are placed inside the electrolyzer, and a diaphragm is installed between the two electrodes or a diaphragm-free method without a diaphragm, The electrolyzer is filled with feed water, and tap water, saline, distilled water, purified water, etc. are supplied according to the product conditions. Natural salt (NACL), hydrochloric acid, etc. are additionally supplied as additives depending on the product, and the installed electrode It consists of a structure that supplies power to the

In addition, the produced substances are unstable after creation and thus have a large half-life for their effects. I'd say it's a way.

Recently, various kinds of electrolyzed water materials generated from electrolyzed water through various electrolysis methods are often used for human treatment purposes and skin treatment purposes. there is.

However, the existing electrolyzed water generating device stores the electrolyzed water generated in a separate storage tank or puts it in a container, which causes a time delay until it is used, thereby reducing the effect of the generated electrolyzed water, and cleaning without a suction device after discharge cleaning. Since it has only a function, there is a problem in that wastewater treatment is separately processed, or when it is applied to the human body, there is a problem of having to process wastewater again.

The present invention is proposed to solve the above problems of the previously proposed methods, and a supply water pipe for supplying supply water for generating electrolyzed water, and supply water supplied from the supply water pipe is introduced and supplied, An electrolyzer unit for generating electrolyzed water through electrolysis of the provided electrode, a discharge header unit having a discharge port for discharging electrolyzed water generated through the electrolyzer unit, a switch for controlling the operation of the electrolyzed water generating device, and an operation state By having a display unit displaying An object of the present invention is to provide a handpiece-type electrolyzed water generator including an electrode, which can be discharged and used.

In addition, in the present invention, in the form of a handpiece including an electrode, the electrolyzed water generated after electrolysis of the supplied water can be directly discharged and used through the outlet, resulting in a time delay until the generated electrolyzed water is used. Another object of the present invention is to provide a handpiece-type electrolyzed water generator including an electrode, which minimizes the unstable half-life of the generated electrolyzed water, and thus does not reduce the effect of the electrolyzed water.

In addition, the present invention allows the generated and discharged electrolyzed water to be sucked and used again by a suction action, thereby minimizing the hassle of having to separately perform a water discharge treatment along with a cleaning function, thereby further improving the convenience and efficiency of use Another object of the present invention is to provide a handpiece-type electrolyzed water generator including an electrode.

A handpiece-type electrolyzed water generator including an electrode according to a feature of the present invention for achieving the above object,

As a handpiece type electrolyzed water generator including an electrode,

a supply water pipe for supplying supply water for generating electrolyzed water;

an electrolyzer unit for receiving the supplied water supplied from the supply water pipe and generating electrolyzed water through electrolysis of an electrode provided therein;

a discharge header unit having a discharge port for discharging the electrolyzed water generated through the electrolytic cell unit; and

It is characterized in that it includes a switch capable of controlling the operation of the electrolyzed water generating device, a display unit for displaying an operation status or not, and a control unit for controlling the overall operation of the electrolyzed water generating device.

Preferably, the electrolytic cell unit,

an electrolyzer inlet for receiving supply water by being connected to the supply water pipe to one side of the electrolytic cell housing having the electrode disposed therein;

The other side of the electrolytic cell housing may include an electrolytic cell discharge unit for discharging the electrolyzed water generated through the electrolysis of the electrode to the discharge header unit.

More preferably, the electrolytic cell unit,

an electrolytic cell diaphragm unit coupled between the electrodes disposed inside the electrolytic cell housing and functioning as a diaphragm for separating the electrodes generating electrolyzed water through electrolysis; and

It may be configured to include any one or both of the sensor unit disposed inside the electrolytic cell housing, measuring the PH value and temperature of the generated electrolyzed water and transmitting it to the control unit unit.

Preferably, the discharge header part,

The electrolyzed water discharged through the discharge port may be configured to further include a suction port to allow the electrolyzed water to be sucked again by a suction action.

More preferably, the discharge header part,

It can be detachably assembled and separated from the handpiece body of the electrolyzed water generating device.

Even more preferably, the discharge header part,

It is detachably installed on the handpiece body of the electrolyzed water generating device, and the electrolyzed water discharged from the outlet can be sucked again to be used for cleaning.

More preferably, the electrolyzed water generating device comprises:

It may be configured to further include a discharge water pipe for draining the electrolyzed water that is discharged by being connected to the suction port of the discharge header portion is sucked again by a suction action.

Even more preferably, the electrolyzed water generator comprises:

An additive water pipe for additionally supplying an electrolytic additive to the inside of the electrolytic cell housing of the electrolytic cell unit may be further included.

According to the handpiece-type electrolyzed water generating device including the electrode proposed in the present invention, a supply water pipe for supplying supply water for generating electrolyzed water, and supply water supplied from the supply water pipe are introduced and supplied, and provided therein An electrolyzer unit for generating electrolyzed water through electrolysis of the electrode to be used, a discharge header unit having a discharge port for discharging the electrolyzed water generated through the electrolytic cell unit, a switch for controlling the operation of the electrolyzed water generating device, and an operation status By having a display unit for displaying and including a control unit for controlling the overall operation of the electrolyzed water generating device, unlike the existing electrolyzed water generating device, electrolyzed water is generated in a short time with a handpiece type without a separate storage tank and immediately discharged to make it usable.

In addition, according to the handpiece-type electrolyzed water generating device including the electrode of the present invention, in the form of a handpiece including an electrode, the electrolyzed water generated after electrolyzing the incoming supply water can be directly discharged through the outlet for use. , there is no time delay until the generated electrolyzed water is used, the unstable half-life of the generated electrolyzed water is minimized, and thus the effect of the electrolyzed water is not reduced.

In addition, according to the handpiece-type electrolyzed water generating device including the electrode of the present invention, the generated and discharged electrolyzed water can be sucked and used again by a suction action, thereby eliminating the hassle of separately performing a water discharge treatment along with a cleaning function. It can be minimized, and thus the convenience and efficiency of use can be further improved.

1 is a view showing the configuration of a handpiece-type electrolyzed water generating device including an electrode according to an embodiment of the present invention as a functional block.
FIG. 2 is a view schematically showing the configuration of a handpiece-type electrolyzed water generator including an electrode according to an embodiment of the present invention in the form of a handpiece having a suction function by including a cleaning function; FIG.
3 is a diagram schematically illustrating a configuration in which an additive water pipe is added to an electrolyzer part in a handpiece-type electrolyzed water generator including an electrode according to an embodiment of the present invention;
4 is a diagram schematically illustrating a configuration in which a suction function is removed from an electrolyzer unit in a handpiece-type electrolyzed water generating device including an electrode according to an embodiment of the present invention;
5 is a diagram schematically illustrating a configuration in which the electrode direction structure of the electrolyzer part is horizontally arranged in the handpiece type electrolyzed water generating apparatus including the electrode according to an embodiment of the present invention;
6 is a diagram illustrating a schematic configuration of a handpiece of a simple discharge type without a suction function in a handpiece-type electrolyzed water generating device including an electrode according to an embodiment of the present invention.
7 is a view schematically showing an example of the structure of the discharge header in the handpiece-type electrolyzed water generating apparatus including the electrode according to an embodiment of the present invention.
8 is a view for explaining the overall configuration for each function according to the shape of the handpiece of the electrolyzed water generating device of the handpiece type including the electrode according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those of ordinary skill in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, "including" a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

The handpiece type electrolyzed water generating device including the electrode according to the present invention electrolyzes the supply water flowing into the handpiece type generating device including the electrode, and then directly discharges the electrolyzed water to the outlet without storing the electrolyzed water in a separate storage tank to make it usable.

On the other hand, among the electrolyzed water produced by electrolysis of water, hypochlorous acid water, sodium hypochlorite, hydrogen water, etc. are often used as sterilizing disinfectants. Hereinafter, electrolyzed water generated by electrolysis of water, that is, hypochlorous acid water, sodium hypochlorite, and hydrogen water will be described.

First, hypochlorous acid water (HOCl) is obtained by electrolysis of hydrochloric acid or saline, and means an aqueous solution containing hypochlorous acid as an active ingredient. Hydrochloric acid has the chemical formula of HCl, and saline is NaCl, that is, an aqueous sodium chloride solution containing salt. According to the standards and specifications, it is a colorless liquid and has an odorless or light chlorine smell. In addition, it should be tested according to the bacterial suspension test method among the test methods as a sterilization and disinfection power test, and it should be suitable. As for the classification according to purity, hypochlorous acid water according to the standards and specifications of food additives is classified into three types as shown in [Table 1] below.

In addition, in the case of strongly acidic hypochlorous acid water, it can be produced according to the standards and specifications of weakly acidic and slightly acidic hypochlorous acid water through the control of the chlorine concentration and the adjustment of the pH.

The definition of sodium hypochlorite (NaOCl, lactose) refers to sodium hypochlorite as a main component in the standards and specifications of food additives, including those obtained by electrolysis of saline. However, diluents and stabilizers may be added for dilution or quality stability. According to standards and specifications, it is said that it contains 4.0% or more of effective chlorine, and that obtained by electrolysis of saline contains 100ppm or more. In addition, it is said that it is a colorless or pale greenish-yellow liquid and has a chlorine odor. In the case of sterilization and disinfection power test, similar to hypochlorous acid water, it should be tested according to the bacterial suspension test method among the bactericidal disinfection power test methods, and it should be suitable. [Table 2] below shows a comparison between strong acidic hypochlorous acid water and sodium hypochlorite.

Among the recently commercialized non-acidic hypochlorous acid, some products are produced by adding acidity preservatives for reasons of stability or storage period. In addition, in the case of pure HOCl, most of the shelf life is within 6 to 12 months.

In addition, in the case of hydrogen water, when water is electrolyzed into electrical energy, it is decomposed into hydrogen (H) and hydroxide ions (OH ^- ), and the separated ionic substances combine with other ionic substances in water to produce various types of substances. do. “Cationic hydrogen (H ⁺ ) proton” has strong reactivity and disappears instantaneously (1/100 second), whereas “anionized hydrogen (H ^- ) hydrite” is stable and binds with mineral ion substances ionized in water. and lasting energy for a long time. That is, hydrogen (H) tries to absorb and bond with mineral ions in a win-win relationship. In addition, the separated hydrogen ions (H ^- ) transfer excess electrons to active oxygen (O ₂ ^- ), which is a harmful oxygen, and thus converts it to oxygen required for metabolism or converts it into water to protect the living body. will be reduced Hydroxide ions (OH ⁻ ) also convert highly oxidizing water to reducing power by electrical attraction, thereby enhancing the production of antioxidants.

^{When water is decomposed, the concentration of hydroxide ions (OH -} ) is higher than that of hydrogen (H) ions, and as a result, it becomes weakly alkaline, and one more negative electron is added to have a strong reducing power with a stable electron arrangement.

1 is a functional block diagram illustrating the configuration of a handpiece-type electrolyzed water generator including an electrode according to an embodiment of the present invention, and FIG. 2 is a handpiece including an electrode according to an embodiment of the present invention. In the electrolyzed water generating device of the type, a cleaning function is included and is a diagram showing a schematic configuration of a handpiece having a suction function, and FIG. 3 is a handpiece type including an electrode according to an embodiment of the present invention. In the electrolyzed water generating device, it is a view schematically showing the configuration of the form in which the additive water pipe is added to the electrolyzer part. 1 to 3, the handpiece type electrolyzed water generating apparatus 100 including an electrode according to an embodiment of the present invention includes a supply water pipe 110, an electrolyzer unit 120, and a discharge header. It may be configured to include the unit 130 and the control device unit 140 , and may further include a discharge water pipe 150 , and an additive water pipe 160 .

The supply water pipe 110 is configured to supply supply water for generating electrolyzed water. The supply water pipe 110 is disposed on the handpiece body 101 of the handpiece type electrolyzed water generating device 100 and serves to supply the supplied water supplied from the outside to the electrolyzer unit 120 . Here, the supply water pipe 110 is a pipe of the supply water inlet and may be supplied while the supply amount of the supply water is adjusted under the control of the control device unit 140 .

The electrolyzer unit 120 is configured to receive the supplied water supplied from the supply water pipe 110 by inflow, and to generate electrolyzed water through the electrolysis of the electrode 121 provided therein. The electrolytic cell unit 120 includes an electrolytic cell inlet 122 for receiving supply water by being connected to the supply water pipe 110 to one side of the electrolytic cell housing in which the electrode 121 is disposed, and an electrode ( 121) may include an electrolytic cell discharge unit 123 for discharging the electrolyzed water generated through the electrolysis to the discharge header unit 130 . Here, the electrode 121 may be configured as a pair or more than one pair.

In addition, the electrolytic cell unit 120 is coupled between the electrodes 121 disposed inside the electrolytic cell housing, and functions as a diaphragm for separating the electrodes 121 that generate electrolyzed water through electrolysis. , disposed inside the electrolytic cell housing, it can be configured to include any one or both of the sensor unit 125 for measuring the PH value and temperature of the generated electrolyzed water and transmitting it to the control device unit 140 .

The discharge header unit 130 is configured to include a discharge port 131 for discharging the electrolyzed water generated through the electrolytic cell unit 120 . The discharge header unit 130 may further include a suction port 132 that allows the electrolyzed water discharged through the discharge port 131 to be sucked again by a suction action. Here, the discharge header unit 130 may be detachably assembled and detached from the handpiece body 101 of the electrolyzed water generating device 100 . That is, the discharge header part 130 is a part from which the electrolyzed water is discharged, and may be assembled and disassembled in the form of being separately mounted on the handpiece on the discharge front part.

In addition, the discharge header 130 is mounted on the front part of the handpiece body 101 can adjust the discharge form of the electrolyzed water.

In addition, the discharge header unit 130 is detachably installed on the handpiece body 101 of the electrolyzed water generating device 100, and sucks the electrolyzed water discharged from the discharge port 131 again so that it can be used for cleaning. .

The control device unit 140 includes a switch 141 that can control whether the electrolyzed water generating device 100 operates or not, and a display unit 142 that displays an operating state, and the overall operation of the electrolyzed water generating device 100 . configuration to control As shown in FIGS. 2 and 3, respectively, the control device unit 140 has a switch 141 capable of controlling the operation of the electrolyzed water generating device 100 at the upper end side of the handpiece body 101. A display unit 142 that is formed and displays an operating state may be disposed on one side of the switch 141 .

In addition, the control device unit 140 may further include a power supply unit (not shown) including a power line for supplying power to the pair of electrodes 121 disposed inside the housing of the electrolytic cell unit 120 . .

The discharge water pipe 150 is connected to the suction port 132 of the discharge header part 130 of the electrolyzed water generating device 100 and is configured to drain the discharged electrolyzed water by suction action. The discharge water pipe 150 is a pipe disposed on the handpiece body 101 of the handpiece type electrolyzed water generating device 100, and serves to discharge the electrolyzed water sucked back by the suction action.

The additive water pipe 160 is configured to additionally supply an electrolytic additive to the inside of the electrolytic cell housing of the electrolytic cell unit 120 of the electrolyzed water generating device 100 . The additive water pipe 160 serves to supply additives to be added for material properties of the electrolyzed water generated in the electrolyzer unit 120 .

4 is a diagram schematically illustrating a configuration in which the suction function is removed from the electrolytic cell in the handpiece-type electrolyzed water generating device including the electrode according to an embodiment of the present invention. 4 shows the configuration of an example in which a part of the suction function of the electrolyzer unit 120 is removed from the structure of the electrolyzed water generator 100 .

5 is a diagram schematically illustrating a configuration in which the electrode direction structure of the electrolyzer part is horizontally arranged in the handpiece type electrolyzed water generating apparatus including the electrode according to an embodiment of the present invention. 5 shows the configuration of an example in which the structure of the electrolyzer unit 120 and the arrangement structure of the electrode 121 are horizontally modified in the structure of the electrolyzed water generator 100 .

6 is a view showing a schematic configuration of a handpiece of a simple discharge type without a suction function in the handpiece-type electrolyzed water generator including an electrode according to an embodiment of the present invention. 6 shows the configuration of a modified example in which the configuration of the additive inflow and the suction function is removed from the structure of the electrolyzed water generating device 100 .

7 is a diagram schematically illustrating an example of the structure of a discharge header part in a handpiece-type electrolyzed water generating apparatus including an electrode according to an embodiment of the present invention, and FIG. It is a diagram illustrating the overall configuration for each function according to the shape of the handpiece of the electrolyzed water generating device of the handpiece type including the electrode. 7 shows examples of the structural form of the discharge header unit 130 applied to the electrolyzed water generating device 100 according to the present invention, and FIG. 8 is the water treatment direction and signal of the electrolyzed water generating device 100 according to the present invention. The flow of a processing process including processing is shown.

As described above, the handpiece-type electrolyzed water generating apparatus including the electrode according to an embodiment of the present invention includes a supply water pipe for supplying supply water for generating electrolyzed water, and a supply water supplied from the supply water pipe by introducing A switch capable of controlling the operation of an electrolyzer unit that receives the supply and generates electrolyzed water through electrolysis of electrodes provided therein, a discharge header unit having a discharge port for discharging electrolyzed water generated through the electrolyzer unit, and an electrolyzed water generating device And, by having a display unit for displaying the operation status and including a control unit for controlling the overall operation of the electrolyzed water generating device, unlike the existing electrolyzed water generating device, it is a handpiece type without a separate storage tank Electrolyzed water can be generated and immediately discharged for use. In particular, in the form of a handpiece including an electrode, the electrolyzed water generated after electrolysis of the inflowing water can be directly discharged and used through the outlet. There is no time delay until the electrolyzed water is used, the unstable half-life of the generated electrolyzed water is minimized, and thus the effect of the electrolyzed water is not reduced. In addition, by allowing the generated and discharged electrolyzed water to be sucked and used again by the suction action, the hassle of having to separate wastewater treatment along with the cleaning function is minimized, and thus the convenience and efficiency of use can be further improved. there will be

Various modifications and applications of the present invention described above are possible by those skilled in the art to which the present invention pertains, and the scope of the technical idea according to the present invention should be defined by the following claims.

100: Electrolyzed water generating device according to an embodiment of the present invention
101: handpiece body
110: supply water pipe
120: electrolytic cell unit
121: electrode
122: electrolyzer inlet
123: electrolytic cell discharge unit
124: electrolytic cell diaphragm part
125: sensor unit
130: discharge header part
131: outlet
132: intake
140: control unit
141: switch
142: display unit
150: exit water pipe
160: additive water pipe

Claims (8)

As a handpiece type electrolyzed water generator 100 including an electrode,
a supply water pipe 110 for supplying supply water for generating electrolyzed water;
an electrolyzer unit 120 that receives and receives the supply water supplied from the supply water pipe 110 and generates electrolyzed water through the electrolysis of the electrode 121 provided therein;
a discharge header unit 130 having a discharge port 131 for discharging the electrolyzed water generated through the electrolytic cell unit 120; and
A control device unit having a switch 141 for controlling the operation of the electrolyzed water generating device 100 and a display unit 142 for displaying an operation status, and controlling the overall operation of the electrolyzed water generating device 100 (140);
The discharge header unit 130,
The electrolyzed water discharged through the discharge port 131 is configured to further include a suction port 132 that allows the electrolyzed water to be sucked again by a suction action,
The discharge header unit 130,
It is detachably installed on the handpiece body of the electrolyzed water generating device 100, and functions to suck the electrolyzed water discharged from the discharge port 131 again and use it for cleaning,
The electrolyzed water generating device 100,
It is configured to further include a discharge water pipe 150 for draining the electrolyzed water that is connected to the suction port 132 of the discharge header 130 and discharged again by a suction action,
The electrolyzed water generating device 100,
and further comprising an additive water pipe 160 for additionally supplying an electrolytic additive to the inside of the electrolytic cell housing of the electrolytic cell unit 120,
The electrolytic cell unit 120,
The electrode 121 is connected to the supply water pipe 110 to one side of the electrolytic cell housing disposed therein, and an electrolytic cell inlet 122 for receiving supply water, and the other side of the electrolytic cell housing to the electrode 121. and an electrolytic cell discharging unit 123 for discharging the electrolyzed water generated through decomposition to the discharging header unit 130, and
The electrolytic cell unit 120,
An electrolytic cell diaphragm part 124 that is coupled between the electrodes 121 disposed inside the electrolyzer housing and functions as a diaphragm for separating the electrodes 121 that generate electrolyzed water through electrolysis; It is arranged and configured to include any one or both of the sensor unit 125 that measures the PH value and temperature of the generated electrolyzed water and transmits it to the control unit 140,
The discharge header unit 130,
Doedoe detachably assembled and separated to the handpiece body 101 of the electrolyzed water generating device 100, It is a part where the electrolyzed water is discharged, and it can be assembled and separated in the form of being separately mounted on the handpiece on the discharge front part,
The supply water pipe 110,
It is disposed on the handpiece body 101 of the handpiece type electrolyzed water generating device 100 and supplies the supplied water supplied from the outside to the electrolyzer unit 120 , but the supplied water is supplied under the control of the control device unit 140 . It functions so that the supply can be supplied while the supply is regulated.
The control unit 140,
A switch 141 capable of controlling the operation of the electrolyzed water generating device 100 is formed on one side of the upper end of the handpiece body 101 , and a display unit 142 for displaying the operating state is one of the switches 141 . It is arranged side by side,
The control unit 140,
Handpiece type including electrodes, characterized in that it further comprises a power supply unit including a power supply line for supplying power to a pair of electrodes 121 arranged inside the housing of the electrolytic cell unit 120 of electrolyzed water generator. delete delete delete delete delete delete delete

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