KR20210124661A - electrolytic water device - Google Patents

Abstract

The present invention relates to an electrolytic water device in which a structure of an electrode installed in an electrolytic water device is improved to produce a large amount of sterilized water in a short time. According to the present invention, a plurality of circular guide protrusions (3a to 3c) are formed on an electrolytic cell module (3) in multiple folds, wherein a first guide protrusion (3a), a second guide protrusion (3b), and a third guide protrusion (3c) are spaced apart by a set distance from the outside so that electrodes (7 to 9) can be inserted into the guide protrusions (3a to 3c). Accordingly, while three electrodes of a first (+) electrode (7), a (-) electrode (8), and a second (+) electrode (9) are sequentially fixed to the guide protrusions (3a to 3c), respectively, electricity is supplied to each electrode so that electrolysis is performed, and thus sterilized water is produced.

Description

electrolytic water device

The present invention relates to an electrolyzed water device, and in particular, it is installed in the electrolyzed water machine to improve the structure of the + and - electrodes to decompose water so that a large amount of sterilized water can be produced in a short time.

In general, the electrolyzed water dispenser is a product that generates hypochlorous acid water, which is sterilization water, by applying electrical stimulation to tap water.

In other words, the electrolyzed water generator is a household sterilizing water maker that electrolyzes water to produce electrolyzed water containing hypochlorous acid and hypochlorite ions. It has a sterilizing effect by spraying it on clothes, doorknobs, furniture, etc.

Recently, in a situation where the demand for disinfectants has increased due to the spread of the novel coronavirus, the electrolyzed water dispenser can easily make sterilized water using tap water without detergents and additives, and thus is gaining popularity in online shopping malls and home shopping malls.

The conventional electrolyzer is a means for performing electrical stimulation, in which + and - plate electrodes are installed facing each other to supply electricity to electrolyze water. Sterilized water was prepared through

Therefore, conventionally, since sterilizing water is manufactured through the hole of the flat electrode, there is a limitation in the production of sterilizing water, so that it is difficult to quickly produce sterilizing water.

Patent Application No. 10-2001-0059470 Patent Application No. 10-2009-0043881 Patent Application No. 10-2009-0072584

The present invention is to solve such conventional drawbacks, and an object of the present invention is to improve the existing flat electrode installed up and down of the electrolyzer, and install the + electrode and - electrode in a horizontal and circular shape with regular intervals to generate electricity. An object of the present invention is to provide an electrolyzed water machine capable of quickly producing a large amount of sterilizing water by causing the sterilizing water to be generated upward through the central opening of the circular electrode through decomposition.

In the present invention for achieving the above object, in the electrolyzer module of the electrolyzer, a plurality of guide protrusions are formed in a circular shape on the electrolytic cell module, and a first guide protrusion from the outside to the inside so that the electrode can be inserted into the guide protrusion , the second guide protrusion and the third guide protrusion are formed at regular intervals, and three circular + electrode, - electrode, and + electrode are sequentially fixed through each guide protrusion so that electricity is supplied to each electrode. is characterized by

In the present invention, one side of the -electrode is fixed to the -electrode insertion port and fixed in a circular shape through a plurality of protrusions, and one + electrode is fixed to the +electrode insertion port and a plurality of guide protrusions are interposed to the inside of the -electrode. Simultaneously with fixing in a circular shape, it is characterized in that - a plurality of guide protrusions are interposed to the outside of the electrode to be inserted and fixed in a circular shape.

As described above, the present invention improves the electrode structure of the electrolyzer to improve the structure of the electrode from the conventional flat electrode structure facing each other up and down to a horizontal circular or oval structure, so that the sterilizing water is rapidly discharged upward through the center of the electrode. There is a manufacturing effect.

1 is a perspective view of an electrolyzer of the present invention;
2 is a view showing the electrolyzer module of the present invention electrolyzer
3 is an exploded perspective view of the electrode structure of the present invention;
4 is a view showing a state in which the electrode is installed in the electrolytic cell module of the present invention and connected to the substrate through a cable;
5 is a view showing another embodiment of the electrode of the present invention;
6 is a cross-sectional view of a state in which the electrode is inserted between the guide projections of the present invention.

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

1 is a perspective view of the electrolyzer of the present invention, FIG. 2 is a view showing the electrolyzer module of the present invention, FIG. 3 is an exploded perspective view of the electrode structure of the present invention, and FIG. 4 is an electrode installed in the electrolytic cell module of the present invention It shows a state connected to the board through a cable, and has a structure in which the electrolyzer module 3 is installed in the lower part of the main body 2 of the electrolyzer 1, and the electrolyzer module 3 has three grooves 3d. A plurality of guide protrusions are formed in a circular shape while being sequentially formed at intervals.

In the guide protrusion, a first guide protrusion 3a, a second guide protrusion 3b, and a third guide protrusion 3c are formed in a circular shape at regular intervals from the outside to the inside so that the electrode can be inserted.

After inserting and fixing the circular first + electrode 7, - electrode 8, and 2 + electrode 9 sequentially through each of the guide protrusions 3a - 3c, the cover 6 is removed. It is configured so that power is supplied to each electrode 7-9 by combining.

Unexplained reference numeral 10 in the drawing is a cable for connecting the electrode and the substrate.

The operation of the present invention configured in this way will be described as follows.

In the electrolyzer 1 of the present invention, the electrolyzer module 3 is installed in the lower part of the main body 2 to produce sterilized water by electrolysis of electrodes.

The electrolytic cell module 3 is formed with a plurality of circular guide protrusions.

That is, in the guide protrusion, a first guide protrusion 3a, a second guide protrusion 3b, and a third guide protrusion 3c are formed in a circular shape at regular intervals from the outside to the inside so that the electrode can be inserted.

Each of the guide protrusions may be continuously formed in a circular shape, or may be cut at regular intervals to form a plurality of projections in a circular shape, and any shape may be used as long as it has a function of inserting and fixing a circular electrode.

Accordingly, as shown in FIG. 6(A), three electrodes of the first + electrode 7, the - electrode 8, and the second + electrode 9 are sequentially fixed to the guide protrusion 3a - 3c, and the cover 6 ) is combined to form the electrolytic cell module 3, and when power is applied to each electrode, water is electrolyzed and sterilized water is generated upward.

At this time, the first guide protrusion 3a to the third guide protrusion 3c are formed in a circular shape while being narrowed at regular intervals from the outside to the inside.

In addition, the first + electrode 7 , the - electrode 8 , and the second + electrode 9 are also formed in the same size in a circular shape so that one end of each electrode is inserted into the groove 3d in turn and fixed to each electrode. (7-9) is inserted and fixed between the guide projections (3a-3c), and eventually forms a horizontally circular electrode shape as shown in the enlarged view on the right of FIG. It is generated and moved rapidly upward through the wide opening of the part.

5 shows another embodiment of the electrode of the present invention, and the structure of the electrode is divided into three electrodes: the first + electrode 7, the - electrode 8, and the second + electrode 9 as in the above embodiment. No configuration, but only two electrodes of the + electrode 11 and the - electrode 8. As shown in FIG. 5, first, the - electrode 8 is fixed to the - electrode insertion hole 8 a, and a plurality of protrusions are formed. In a state of being inserted and fixed in a circular manner through the mediation, the + electrode 11 is first fixed to the + electrode insertion hole 11a inside the - electrode 8, and inserted and fixed in a circular shape through a plurality of protrusions, and then the - The + electrode 8 is continuously inserted and fixed to the outside of the electrode 8 through a plurality of protrusions.

That is, in this embodiment, while maintaining the length of the - electrode 8 as it is, the length of the + electrode 11 is twice as long as that of the above-described embodiment, so that the inside and the outside of the - electrode 8 are combined together. By allowing it to be fixed in a circular shape while rotating, it is possible to perform the same operation as in the above-described embodiment, as well as simplify the electrode.

1: Electrolyzer 2: Body
3: electrolytic cell module 3a: first guide protrusion
3b: second guide protrusion 3c: third guide protrusion
3d:home 3e:case
4: Operation button 5: Board
6: Cover 7: 1st + electrode
7a: first + electrode insertion port 8: - electrode
8a:-electrode insertion port 9: 2nd + electrode
9a: second + electrode insertion port 10: cable
11:+electrode 11a:+electrode insertion port

Claims (3)

In the electrolyzer module installed in the lower part of the main body to produce sterilized water by electrolysis of electrodes,
A plurality of circular guide protrusions are formed on the case of the electrolytic cell module, but the first guide protrusion, the second guide protrusion, and the third guide protrusion gradually narrow from the outside to the inside so that the electrode can be inserted into the guide protrusion at regular intervals. The three electrodes of the 1st + electrode, the -electrode, and the 2nd + electrode are sequentially inserted and fixed between the guide protrusions, and the cover is combined to apply power to each electrode, so that electrolysis is performed. Electrolyzer, characterized in that. The method according to claim 1, wherein the first + electrode, the - electrode, and the second + electrode are formed to have the same size, and one end of each electrode is sequentially inserted into the groove and fixed, and each electrode is inserted in a circular manner between the guide protrusions. and an electrolyzer, characterized in that it is fixedly configured. According to claim 1, wherein one side of the -electrode is fixed to the -electrode insertion hole and fixed in a circular shape through a plurality of guide protrusions, one + electrode is fixed to the +electrode insertion hole, and - through a plurality of guide protrusions - Electrolyzer, characterized in that it is inserted and fixed in a circle between the inner guide protrusions of the electrode and is continuously inserted and fixed in a circle through a plurality of guide protrusions to the outside of the electrode.

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