KR101049014B1 - Acid ionizer - Google Patents

Abstract

The present invention relates to an acidic ionizer, which is capable of carrying an acidic ionizer, preventing loss of raw water and preventing damage to electrodes and ion diaphragm by dissolved solid matter, Acidic water used for cosmetic purposes or for cleaning purposes such as sterilization and disinfection.
That is, the present invention provides an acidic ionizer, comprising: an acidic hydration electrode unit provided on one side of the acidic hydration vessel and configured to receive only the anode electrode directly with raw water; and an acidic hydration electrode unit configured to perform acidic hydration detection And an acidic hydration control unit provided on one side of the acidic hydration vessel so as to be able to control the hydration.
Accordingly, the present invention provides an acidic hydration electrode comprising an acidic ionizer and an electrolytic cell, wherein the acidic hydration electrode portion is configured to receive only the anode electrode directly with the raw water, thereby simplifying the structure of the acidic ionizer, The loss of the raw water is minimized.

Description

Description of the Related Art A pasteurized ion water generator

The present invention relates to an acidic ionizer, and more particularly, to an acidic ionizer having an acidic hydration electrode unit provided on one side of the acidic hydration vessel and configured to receive only the anode electrode directly with raw water, And an acidic hydration control unit provided at one side of the acidic hydration vessel so as to be able to control the acidic hydration according to the sensing means, thereby making it possible to carry the acidic ionizer, prevent loss of raw water, The present invention is intended to provide an acidic water which can be used for a cosmetic purpose such as cleansing or a cleaning purpose such as sterilization and disinfection according to the user's need.

Generally, the acidic water ionizer is capable of storing and supplying acidic water having a sterilizing function when make-up or sterilization is required, or it can be manufactured and supplied by itself.

As described above, the acidic ionizer capable of producing acidic water by itself can produce acidic water by electrolyzing the supplied raw water. The constitution of the acidic ionizer is composed of two electrolytic cells And an electrolytic electrode in each electrolytic cell.

However, the conventional acidic water ionizer which can produce the conventional acidic water as described above has a problem in that it is not easy to carry because it is large and fixed type.

In the conventional acid ionizer, only the acidic water is used and the alkaline water is largely discarded, which causes waste of water.

In addition, in the acid hydration process of the raw water, dissolved solid matters such as calcium and magnesium contained in the water are smeared on the electrodes or the ion diaphragm is clogged and damaged.

In addition, in the case of raw water having a low electrical conductivity such as distilled water due to the distance between the two electrolytic electrodes, there is a problem that the production of smooth acidic water is not smooth.

Accordingly, the conventional acidic ionizer having two electrolytic cells separated by the ion diaphragm according to the present invention has complicated structure and is not easy to carry. Only the acidic water produced is used, and the other alkaline water is abandoned, And solves the problem that the electrode and the ion diaphragm are damaged by the dissolved solid matter.

That is, the present invention provides an acidic ionizer, comprising: an acidic hydration electrode unit provided on one side of the acidic hydration vessel and configured to receive only the anode electrode directly with raw water; and an acidic hydration electrode unit configured to perform acidic hydration detection And an acidic hydration control unit provided on one side of the acidic hydration vessel so as to be able to control the hydration.

Accordingly, the present invention provides an acidic hydration electrode comprising an acidic ionizer and an electrolytic cell, wherein the acidic hydration electrode portion is configured to receive only the anode electrode directly with the raw water, thereby simplifying the structure of the acidic ionizer, The loss of the raw water is minimized.

1 is an exploded perspective view showing an embodiment according to the present invention.
FIG. 2 is a bottom view of a combined bottom according to an embodiment of the present invention. FIG.
3 is a cross-sectional side view of an embodiment according to the present invention.
Figures 4 to 6 illustrate an embodiment of a lid according to another embodiment of the present invention in which push button spray means are provided.
7 is an exemplary view showing a lid having lever-type spraying means in another embodiment according to the present invention.

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

The present invention can minimize the loss of raw water in the manufacturing process of acidic water and prevent the damage of electrodes and ion diaphragm due to dissolved solid materials contained in raw water.

1 to 3, the present invention provides an acidic ionizer having an acidic hydration container 100 having a constant volume and containing one or more acidic hydrates 110, An acidic hydration electrode unit 200 provided at one side of the acidic hydration vessel 100 and adapted to receive only the negative electrode directly with raw water and an acidic hydration electrode unit 200 disposed at one side of the acidic hydration vessel 100, An acidic hydration control unit 310 provided at one side of the acidic hydration vessel 100 so as to control the operation of the acidic hydration vessel 100 so as to control the operation of the acidic hydration vessel 100, And an operation button 320 provided on one side and a power supply unit provided on one side of the acidic hydration container so as to supply power to the acid hydration electrode unit 200 under the control of the acid hydration control unit 310.

The acidic hydration container 100 includes an outlet 122 having an opening formed at an upper portion thereof to receive raw water and discharge ionized water and an outlet 120 composed of a lid 121 for sealing the outlet 122 And its outer shape can be implemented as a cylindrical bottle as shown in Figs.

4 to 7, the lid 121 may be provided with a spraying means so as to spray the acidic water produced therein, as shown in FIGS. 4 to 7, The push button type as shown in FIG. 7 and the lever type as shown in FIG. 7 are selected.

4 and 7, the atomizing means includes an acidic water suction pipe 123c for sucking the acidic water in the acidic water treatment chamber 110, and an acidic water suction pipe 123c for pumping acidic water sucked through the acidic water suction pipe 123c An acidic water pump 123b and a spray part 123a for spraying the acidic water pumped by the acidic water pump 123b.

As shown in FIG. 1, the acid hydration electrode unit 200 may be formed in a disc shape. The acid hydration electrode unit 200 may be formed of a proton exchange membrane (Proton Exchange Membrane) and a polymer electrolyte membrane A raw water contact electrode 220 which is tightly coupled to one side of the ion diaphragm 210 and is in contact with the raw water so that the ion material can pass therethrough and the ionic diaphragm 210 on the opposite side of the raw water contact electrode 220, And an externally exposed electrode 230 which is exposed to the outside and formed only through hydrogen generated in the acid hydration process.

The raw water contact electrode 220 and the external exposed electrode 230 may be formed by selecting either a mesh plate or a perforated plate.

In addition, the acidic hydration electrode unit 200 can be configured to be coupled to the disk-shaped electrode mounting unit 133 formed under the acidic hydration container 100.

The acid hydration sensing means may be configured such that when the user operates the operation button 320, the acidic hydration control unit 310 performs the acidic hydration of the raw water only by supplying the power to the acidic hydration electrode unit 200 for the set time 3, when the user operates the operation button 320, the acidic hydration control unit 310 controls the operation of the acid hydration container 100 (see FIG. 3) so that the acidic hydration container 100 can sense and control the acidic concentration of the raw water. 100, and an acid sensor 311 for detecting the acid concentration of the raw water.

The power source unit may include an external power source unit 331 for connecting an external power source, or may include a battery 332, which may be a primary battery or a secondary battery.

It is preferable that the power supply unit and the acidic hydration control unit 310 and the operation button 320 are provided in the container platform 150 of the acidic hydration container 100 coupled to the lower portion of the acidic hydration container 100, The container holder 150 is formed with a vent hole 151 for discharging the hydrogen gas generated during the acid hydration process and can be screwed or screwed to the lower portion of the acidic hydration container 100.

Hereinafter, the operation of the present invention will be described.

As described above, in the acidic ionizer, the acidic hydration container 100 having a constant volume and containing one or more acidic hydrates to contain the raw water and forming one acidic hydrate chamber 110, And an acidic hydration electrode unit 200 configured to receive only the negative electrode directly from the raw water, and an acidic hydration electrode unit 200 for controlling the acidic hydration electrode unit 200 according to the acidic hydration detection by the acidic hydration sensing means, An operation button 320 provided at one side of the acidic hydration container 100 for inputting a user's operation signal to the acid hydration control unit 310, According to the present invention, the power supply unit provided at one side of the acidic hydration container can supply power to the acid hydration electrode unit 200 under the control of the acid hydration control unit 310. The present invention can be manufactured in the form of a cylindrical water bottle, Can A.

When the user desires to generate acidic water using the present invention configured as described above, the acid hydration control unit 310 controls the operation of the raw water contact electrode 220 of the acidic hydration electrode unit 200, The raw water contact electrode 220 constituting the anode continuously generates hydrogen ions and oxygen in the raw water.

As described above, a part of the hydrogen ions generated by the raw water contact electrode 220 passes through the ion diaphragm 210 and moves to the externally exposed electrode 230, which is a cathode, and is converted into hydrogen and released into the atmosphere. The electrolytic reaction of the raw water contact electrode increases the concentration of hydrogen ions and thereby acid hydrates.

The acidic water produced as described above is used for a cosmetic purpose such as cleansing and is sprayed using a spraying means provided in the lid 121 to be used for cleaning purposes such as sterilization and disinfection.

The acidic ionizer according to the present invention is closely contacted with the raw water contact electrode 220 and the external exposed electrode 230 around the ion diaphragm 210 so that the raw water having a low electrical conductivity such as distilled water can be easily used Acidic water can be produced.

100: Acid hydration container
110: Acidic water treatment room
120: outlet
121: Lid 122: Outlet
123a: Spraying part 123b: Acidic water pump 123c: Acidic water suction pipe
133: disk-shaped electrode mounting portion
150: container base 151: air vent
200: Acid hydration electrode section
210: ion diaphragm 220: raw water contact electrode
230: Externally exposed electrode
310: acid hydration control unit 311: acid sensor
320: Operation button
331: External power source unit 332: Battery

Claims (3)

In acidic ion exchangers;
An acidic hydration container 100 having a predetermined volume so as to be capable of acidifying and hydrating the raw water and forming one acidic hydrate chamber 110; The acidic hydration electrode unit 200 configured to receive the acidic hydration electrode unit 200 and the acidic hydration electrode unit 200 provided at one side of the acidic hydration vessel 100 so that the acidic hydration electrode unit 200 can be controlled according to the acidic hydration detection by the acidic hydration sensing unit, A control button 310 and an operation button 320 and an acid hydration control unit 310 provided on one side of the acidic hydration container 100 so as to input a user's operation signal to the acid hydration control unit 310 And a power supply unit provided on one side of the acidic hydration container to supply power to the acid hydration electrode unit 200,
The acidic hydration container 100 includes an outlet 122 formed with an opening at an upper portion thereof to receive raw water and discharge ionized water and an outlet 120 formed of a lid 121 for sealing the outlet 122,
The acid hydration electrode unit 200 is closely contacted with one side of the ion diaphragm 210 composed of a proton exchange membrane (Proton Exchange Membrane) through which only an ion material is passed and a polymer electrolyte membrane (Polymer Electrolyte Membrane) A raw water contact electrode 220 formed to allow an ionic material to pass therethrough and an external part formed on the opposite side of the raw water contact electrode 220 to be exposed to the outside and capable of passing hydrogen generated in the acid hydration process, And the exposed electrode 230,
Wherein the acidic hydration electrode unit (200) is coupled to a disk-shaped electrode installation unit (133) formed below the acidic hydration vessel (100).
The method of claim 1, further comprising:
The acid hydration sensing means may be configured such that when the user operates the operation button 320, the acid hydration control unit 310 is configured to supply the acidic hydration electrode unit 200 with power only for a preset time period, When the operation button 320 is operated, the acid hydration control unit 310 detects the acid concentration of the raw water in the acid hydration vessel 100 so that the acid hydration vessel 310 can sense and control the acid concentration of the raw water filled in the acid hydration vessel 100 And an acid sensor 311 for sensing and inputting an input signal,
The lid 121 is provided with a spraying means for spraying the manufactured acidic water. The spraying means may include a push button type or a lever type,
The atomizing means includes an acidic water suction pipe 123c for sucking the acidic water of the acidic water treatment chamber 110, an acidic water pump 123b for pumping the acidic water sucked through the acidic water suction pipe 123c, And a spray part (123a) in which acidic water pumped by the pump (123b) is sprayed.
3. The method of claim 2,
The raw water contact electrode 220 and the externally exposed electrode 230 may be formed of either a plate or a perforated plate,
The ozone decomposing means may be formed by selecting any one of an ozone decomposition catalyst 421 made of manganese oxide and lead compound and an activated carbon 422 absorbing ozone to decompose spontaneously by time,
The power source unit may include at least one of an external power source unit 331 for connecting an external power source and a battery 332 made of either a primary battery or a secondary battery.
The power supply unit and the acidic hydration control unit 310 and the operation button 320 are provided in the container base 150 of the acidic hydration container 100 coupled to the lower portion of the acidic hydration container 100,
Wherein a vent hole (151) is formed in the container base (150) so that a gas such as hydrogen generated during an acid hydration process can be discharged.

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