KR20160037631A - Electrolysis apparatus with assistant electrode - Google Patents

Abstract

The present invention relates to an electrolytic apparatus provided with a auxiliary electrode of a novel structure which is excellent in a sterilizing effect of the water to be treated and a cleaning effect of a pipe to which the water to be treated is fed.
According to the present invention, an electrolytic space 102 into which diluted hydrochloric acid is injected and a dilution space 104 into which the for-treatment water is introduced and into which are partitioned, and between the electrolysis space 102 and the dilution space 104 A housing 100 having an electrolyte discharge hole 105 through which the electrolytic material generated in the electrolytic space 102 is discharged into the dilution space 104; A main electrode 200 provided in the electrolysis space 102 to electrolyze hydrochloric acid flowing into the electrolysis space 102; And an auxiliary electrode (300) provided in the dilution space (104) to electrolyze hydrochloric acid generated in the dilution space (104).

Description

[0001] Electrolysis apparatus with assistant electrode [0002]

The present invention relates to an electrolytic apparatus having an auxiliary electrode, and more particularly, to an electrolytic apparatus provided with an auxiliary electrode of a novel structure, which is excellent in a sterilizing effect of the water to be treated and a cleaning effect of a pipe to be treated.

In a watering facility such as a swimming pool, hygienic management is required such as sterilizing water and periodically cleaning the pipe. In addition, hygienic management of water used in various fields such as various factories, livestock farms, etc. is required.

Generally, a method for electrolyzing water is used as a method for sterilizing water or washing pipes. The electrolytic apparatus is connected to the piping to electrolyze water transferred to the piping. The piping is cleaned as the slurry attached to the piping is ionized and dissolved and removed by the oxidation and reduction of the electrolytic substance generated by electrolysis of water, In addition, water is sterilized.

However, since the disinfecting effect of the electrolytic treatment is insignificant, additional disinfection treatment is required and additional costs are incurred.

On the other hand, hypochlorous acid water is harmless to the human body but has excellent sterilizing power. It is known that the sterilizing power is the most excellent in the acidic range of pH 5 ~ 6.5. Such hypochlorous acid water is often prepared by electrolyzing 2-6% of diluted hydrochloric acid with a non-diaphragm electrolysis apparatus. The mechanism by which hypochlorous acid is produced by electrolysis of hydrochloric acid is as follows. Hydrochloric acid is electrolyzed to generate chlorine gas, which is dissolved in water to generate hypochlorous acid water.

 On the other hand, in the process in which chlorine gas is dissolved in diluted water to generate hypochlorous acid water, a part of the chlorine gas is regenerated as hydrochloric acid, thereby lowering the pH of the produced hypochlorous acid water.

H ₂ O + Cl _{2 -} > HOCl + HCl

However, as described above, hypochlorous acid water has the best sterilizing power at the microacid level of pH 5 ~ 6.5. Therefore, in order to improve the sterilizing power of hypochlorous acid water, it is necessary to adjust the pH of the hypochlorous acid water to a microacid level.

Korean Patent No. 10-0223694 (1999. 07. 12.)

The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a hypochlorous acid having a microacid level, which is excellent in bactericidal effect of the water to be treated, The present invention also provides an electrolytic apparatus equipped with an auxiliary electrode having a novel structure.

According to an aspect of the present invention, there is provided an electrolytic cell in which diluted hydrochloric acid is injected and a dilution space 104 into which the for-treatment water is introduced and discharged, A housing 100 having an electrolyte discharge hole 105 through which an electrolytic substance generated in an electrolytic space 102 is discharged into a dilution space 104; A main electrode 200 provided in the electrolysis space 102 to electrolyze hydrochloric acid flowing into the electrolysis space 102; And an auxiliary electrode (300) provided in the dilution space (104) to electrolyze hydrochloric acid generated in the dilution space (104).

According to another aspect of the present invention, the auxiliary electrode 300 is formed in a spiral shape.

According to another aspect of the present invention, a helical stirring protrusion (108) protrudes from the inner circumferential surface of the dilution space (104).

Since the hydrochloric acid present in the dilution space 104 having the above-described configuration is electrolyzed by the auxiliary electrode 300 to generate additional hypochlorous acid, the hypochlorous acid concentration is increased and the pH is also increased, An acidic hypochlorous acid water can be produced. Therefore, the water to be treated is sterilized effectively, and the cleaning effect of the pipe is excellent.

In addition, when the auxiliary electrode 300 is spirally formed, the chlorine gas generated in the electrolysis space 102 and introduced into the dilution space 104 and the for-treatment water are mixed with the auxiliary electrode 300, , Whereby the chlorine gas is undifferentiated, the solubility of the chlorine gas is increased, and the production efficiency of hypochlorous acid water is improved.

When the spiral agitating protrusion 108 is formed in the dilution space 104, the stirring efficiency of the chlorine gas and the water to be treated is increased, and the hypochlorous acid water production efficiency is further improved.

1 is a cross-sectional view showing a first embodiment of the present invention;
Figure 2 is a cross-sectional view of the use state of the embodiment
3 is a cross-sectional view showing a second embodiment of the present invention
4 is a cross-sectional view showing a third embodiment of the present invention

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a sectional view showing a first embodiment of the present invention, and FIG. 2 is a view showing a used state. A housing 100 in which an electrolytic space 102 and a dilution space 104 are formed, a pair of main electrodes 200 provided in the electrolytic space 102, And a pair of auxiliary electrodes 2300 provided in the space 104.

The housing 100 includes a housing body 110 having a long cylindrical shape and an upper cap 120 and a lower cap 130 which are screwed to upper and lower ends of the housing body 110, respectively. Accordingly, when the upper cap 120 and the lower cap 130 are coupled to the housing main body 110, an inner space is formed inside the housing 100 to be separated from the outside.

A partition wall 130 separating upper and lower spaces of the inner space of the housing 100 is formed in the housing main body 110. The inner space of the housing 100 is partitioned by the partition wall 130 into an electrolytic space 102) and a lower dilution space (104). The partition wall 130 is formed with an electrolytic material discharge hole 105 through which electrolytic material including hydrogen gas and the like including chlorine gas generated in the electrolytic space 102 is discharged into the dilution space 104.

In the dilution space 104 side of the housing main body 110, a water inlet 112 into which water, that is, water to be treated flows, and a water outlet 114 through which water is discharged to the outside are formed.

Meanwhile, a main electrode 200 for electrolyzing hydrochloric acid is built in the electrolytic space 102. The main electrode 200 is formed so as to form a pair of + and - electrodes. In this embodiment, a pair of electrodes is provided, but a plurality of electrodes may be provided. The main electrode 200 is fixedly coupled to the upper cap 120 and the upper cap 120 is formed with a hydrochloric acid inlet 106 for injecting diluted hydrochloric acid into the electrolysis space 102 .

The auxiliary electrode 300 is embedded in the dilution space 104. The auxiliary electrode 300 is also built in pairs so that the auxiliary electrode 300 is fixedly coupled to the lower cap 130.

The present invention having such a configuration operates as follows.

The present invention is installed on the piping to which the for-treatment water is to be transferred or is installed inside the storage space where the for-treatment water is stored. In this case, the inlet port 112 and the drain port 114 of the housing 100 are connected to the pipeline 2. In this case, the inlet port 112 and the drain port 114 of the housing 100 are connected to the pipeline 2. Reference numeral 9 is a hydrochloric acid supply pipe connected between the hydrochloric acid storage tank and the hydrochloric acid inlet 106.

When dilute hydrochloric acid is injected into the electrolytic space 102 through the hydrochloric acid inlet 106 and current is applied to the main electrode 200, dilute hydrochloric acid flowing into the electrolytic space 102 is electrolyzed to generate chlorine gas. The generated chlorine gas flows into the dilution space 104 through the electrolyte discharge hole 105 and is dissolved in the water to be treated in the dilution space 104 to generate hypochlorous acid. In this way, chlorine gas is dissolved in water and hypochlorous acid is produced, so that hypochlorous acid water is finally produced.

Meanwhile, as described above, in the process of generating hypochlorous acid by chlorine gas, a part of the chlorine gas is regenerated into hydrochloric acid. The hydrochloric acid generated at this time is electrolyzed in the dilution space 104 by the auxiliary electrode 300, Thus, hypochlorous acid is additionally produced.

As the hydrochloric acid in the dilution space 104 is electrolyzed by the auxiliary electrode 300, the pH of the hypochlorous acid water is increased and the hypochlorous acid concentration of the hypochlorous acid water is increased. Therefore, a high concentration of hypochlorous acid water is obtained, whereby the piping to be treated and the water to be treated are sterilized, and the slurry attached to the inside of the piping is also effectively removed.

Hereinafter, other embodiments of the present invention will be described, and the same structures and effects as those of the above-described embodiments will not be described.

FIG. 3 shows a second embodiment of the present invention. The housing body 110 includes a first housing body 116 that forms an electrolytic space and a second housing body 116 that is coupled to a lower end of the first housing body 116, And an electrolyte discharge hole 105 is formed on the bottom surface of the first housing body 116. The electrolyte discharge hole 105 is formed in the bottom surface of the first housing body 116. [

Also, in this embodiment, the auxiliary electrode 300 has a spiral twisted shape. When the auxiliary electrode 300 has a spiral shape, the auxiliary electrode 300 can obtain a stirring effect in which the chlorine gas discharged from the electrolysis space 102 and the for-treatment water collide against the auxiliary electrode 300, As a result, the chlorine gas is undifferentiated, the solubility in the for-treatment water is increased, and the production efficiency of hypochlorous acid in which hypochlorous acid is produced is improved.

FIG. 4 shows a third embodiment of the present invention. A spiral stirring protrusion 108 protrudes from the inner circumferential surface of the second housing body 118.

When the stirring projections 108 are formed in this manner, the stirring efficiency of the chlorine gas and the water to be treated is further increased, and the efficiency of producing hypochlorous acid is further improved.

Claims (3)

An electrolytic space 102 into which diluted hydrochloric acid is injected and a dilution space 104 into which a to-be-treated water flows are formed in the interior of the electrolytic space 102. Between the electrolytic space 102 and the dilution space 104, A housing 100 in which an electrolytic material discharge hole 105 through which an electrolytic substance generated in the electrolytic cell 100 is discharged into a dilution space 104 is formed;
A main electrode 200 provided in the electrolysis space 102 to electrolyze hydrochloric acid flowing into the electrolysis space 102; And
And an auxiliary electrode (300) provided in the dilution space (104) to electrolyze hydrochloric acid generated in the dilution space (104).
The method according to claim 1,
Wherein the auxiliary electrode (300) is formed in a spiral shape.
3. The method according to claim 1 or 2,
And a spiral stirring protrusion (108) protrudes from the inner peripheral surface of the dilution space (104).

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