KR20160004690A - Self power generating electrotysis apparatus - Google Patents

Abstract

The present invention relates to a self power generating electrolysis apparatus which has low costs as a composition is simple, and has a new composition having an excellent sterilizing effect of water and an excellent washing effect of a pipe. According to the present invention, the self power generating electrolysis apparatus comprises: a housing (100) having an inlet (112) where water is introduced from the outside and an outlet (114) where the water is discharged to the outside, and having an electrolysis space (102) connected to the inlet (112) and the outlet (114); a rotary electrode body (200) composed of a shaft member (210) of which a base end portion is combined with the housing (100) to be rotated, and multiple pairs of electrodes (220) combined with the shaft member (210) to radially protrude, and rotated by a flow of the water introduced into the inlet (112) by being installed inside the electrolysis space (102); and a generation module (300) connected to the rotary electrode body (200), and converting a rotary force of the rotary electrode body (200) into electricity. Electrolysis is carried out in the electrolysis space (102) as the electricity, generated by the generation module (300), is applied to the electrodes (220).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a self-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a self-generating electrolytic apparatus, and more particularly, to a self-generating electrolytic apparatus of a novel configuration which is simple in construction and low in cost.

A method for electrolyzing water is used as a method for sterilizing water or washing piping. 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, in order to electrolyze water in this way, electric power for driving the electrolytic apparatus is required. Therefore, it is difficult to use the electrolytic apparatus in a place where power supply is difficult. In addition, since the electrolytic device must be driven periodically, much power is consumed.

On the other hand, a self-generating electrolytic device such as the patent registration No. 10-1212867 has been proposed for such a problem. The conventional self-generated electrolytic apparatus is composed of a blade rotated by the flow of water conveyed to the pipe, a power generation module connected to the blade and converting the rotational force of the blade into electric energy, and a battery.

As described above, the conventional self-generating electrolytic apparatus has a complicated structure including a blade and a power generation module, and also requires a blade to be installed inside the electrolytic space, thereby increasing the volume of the electrolytic apparatus.

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

An object of the present invention is to provide a self-generating electrolytic apparatus of a new constitution which is simple in construction, low in cost, and excellent in sterilization of water and cleaning effect of piping.

According to an aspect of the present invention, there is provided a water outlet 112 through which water is introduced from the outside and a water outlet 114 through which water is discharged to the outside, and an electrolytic space (not shown) communicating with the water inlet 112 and the water outlet 114 102) are formed; A shaft member 210 rotatably coupled to the housing 100 and a plurality of electrodes 220 coupled to the shaft member 210 so as to project radially, A rotating electrode body (200) built in and rotated by the flow of water flowing into the inlet (112); And a power generation module 300 connected to the rotary electrode assembly 200 and converting the rotational force of the rotary electrode assembly 200 into electricity. The power generated by the power generation module 300 is supplied to the electrode 220, , And electrolysis is performed in the electrolytic space (102).

According to another aspect of the present invention, an electrolytic space 102 and a dilution space 104 are formed in the electrolytic space 102, and a hydrochloric acid inlet 106 for injecting diluted hydrochloric acid is formed in the electrolytic space 102, A water outlet 112 for discharging water from the outside and a drain port 114 for discharging water to the outside are formed in the electrolytic space 104 and a water hole 114 is formed between the electrolytic space 102 and the dilution space 104, A housing (100) having a hypochlorous acid discharge hole (105) for discharging chloric acid to the dilution space (104); A fixed electrode 130 embedded in the electrolytic space 102; A shaft member 210 rotatably coupled to the housing 100 and a plurality of electrodes 220 coupled to the shaft member 210 so as to be radially projected from the shaft member 210. The shaft member 210 is disposed in the dilution space 104 A rotating electrode body (200) rotated by a flow of water flowing through the inlet (112); And a power generation module 300 connected to the rotary electrode assembly 200 and converting the rotational force of the rotary electrode assembly 200 into electricity. The electricity generated from the power generation module 300 is supplied to the fixed electrode 130, And electrolysis is performed in the electrolytic space (102) and the dilution space (104) by being applied to the electrode (220) of the rotating electrode body (200).

According to another aspect of the present invention, the fixed electrode 130 is formed with an extension 132 inserted into the dilution space 104.

The present invention having the above-described structure is a self-excited electrolytic cell, and it is economical since power is not supplied separately from the outside. Particularly, in the present invention, since the electrodes are made rotatable and power generation is performed, it is not necessary to provide a separate blade for power generation as in the prior art, so that the configuration is simple and a space for installing the blades is not required, One configuration is possible.

When the present invention is used for producing hypochlorous acid water, an extension part 132 inserted into the dilution space 104 is formed at the tip of the fixed electrode 130 provided in the electrolysis space 102, It is possible to prevent the fixed electrode 130 from being overheated and damaged by allowing the fixed electrode 130 to be cooled by the fixed electrode 130. [

In addition, since the rotary electrode assembly 200 is provided in the dilution space 104, hypochlorous acid is generated due to electrolysis of hydrochloric acid present in the dilution space 104 as well as self-power generation, so that the pH of the hypochlorous acid water And the concentration of hypochlorous acid water is also increased. Therefore, it is possible to produce hypochlorous acid water with high concentration and high acidity, thereby effectively sterilizing water and cleaning piping.

The present invention can be applied to various fields such as a water intake, a swimming pool, various kinds of water facilities, industrial and livestock water facilities, and the like.

1 is a cross-sectional view showing a first embodiment of the present invention;
2 is a perspective view of the rotating electrode body used in the above-
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
5 is a sectional view showing a fourth embodiment of the present invention

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

FIG. 1 is a cross-sectional view showing a first embodiment of the present invention, and FIG. 2 is a perspective view showing a rotating electrode body used in the present embodiment. As shown in the drawing, the present invention includes a housing 100 in which an electrolytic space 102 is formed, a rotating electrode 200 embedded in the housing 100, And a power generation module 300 for converting power.

The housing 100 has a vertically long cylindrical shape and has an electrolytic space 102 therein. As shown in the figure, the housing 100 includes a housing body 110 having an opened top, The cover 120 is divided into two parts.

The housing main body 110 is provided with a water inlet 112 through which water, that is, water to be treated flows into the electrolytic space 102 and a water drain 114 through which water is discharged to the outside, 114 are connected to the external piping 2. The water to be treated, that is, water, is not particularly limited as ground water or tap water.

In the electrolytic space 102 of the housing 100, the rotating electrode body 200 is embedded. The rotating electrode assembly 200 includes a shaft member 210 made of a non-conductive material, and a pair of electrodes 220 having a pair of positive and negative electrodes connected to each other. As shown, the electrode 220 is radially coupled to the outer circumferential surface of the shaft member 210, and is shaped like a wing.

The base member of the shaft member 210 of the rotary electrode assembly 200 is rotatably coupled to the cover 120 of the housing 100. Therefore, the electrode 220 is blown by the flow of water flowing through the inlet 112 through the rotary electrode assembly 200.

The power generation module 300 is connected to the rotary electrode assembly 200. The power generation module 300 includes a stator, a rotor, and a conversion circuit inside the case, and a rotor is connected to the shaft member 210. Therefore, as described above, when the rotating electrode assembly 200 is rotated by the flow of water flowing into the housing 100, the rotor connected to the rotating shaft 210 is rotated, and as a result, electric power is generated. Since the power generation module 300 has a known configuration, detailed description is omitted.

The power generated in the power generation module 300 is converted into the driving power type by the conversion circuit. A battery 400 is connected to the power generation module 300 and a battery 400 is connected to the electrode 220 of the rotating electrode assembly 200.

Accordingly, electricity generated in the power generation module 300 is supplied to the electrode 220 of the rotating electrode assembly 200. When the electric current is applied to the electrode 220 of the rotary electrode unit 200, the water flowing into the housing 100 is electrolyzed. As a result, the water is sterilized and the slurry adhering to the inside of the pipe is also removed, do.

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.

3 shows a second embodiment of the present invention. The inner space of the housing 100 is partitioned into the electrolytic space 102 and the dilution space 104 by the partition plate 103 and the inlet 112 and the drain 114 are separated from each other, Is formed to communicate with the dilution space (104).

The cover 120 of the housing 100 is formed with a hydrochloric acid injection port 106 for injecting diluted hydrochloric acid into the electrolytic space 102. The partition plate 103 is provided with an electrolytic space 100, A hypochlorous acid discharge hole 105 through which the hypochlorous acid produced in the dilution space 104 is discharged is formed.

Meanwhile, a fixed electrode 130 for electrolyzing hydrochloric acid is embedded in the electrolytic space 102. The fixed electrode 130 is formed so as to form a pair of + and - electrodes. In the present embodiment, a pair of electrodes is provided, but a plurality of pairs of electrodes may be provided. Preferably, the fixed electrode 130 is fixedly coupled to the cover 120 of the housing 100.

When the fixed electrode 130 is provided in the electrolytic space 102 and the electric current is applied to the fixed electrode 130, the dilute hydrochloric acid flowing into the electrolytic space 102 is electrolyzed to generate chlorine gas, Is dissolved in water and hypochlorous acid is generated. The generated hypochlorous acid is discharged to the dilution space (104) through the hypochlorous acid discharge hole (105). A part of the chlorine gas is discharged into the dilution space 104 through the hypochlorous acid discharge hole 105 in the gaseous state and becomes hypochlorous acid by being dissolved in the water in the dilution space 104. In this way, chlorine gas is dissolved in water and hypochlorous acid is generated, so that hypochlorous acid water is generated.

Water is introduced into the dilution space 104 from the outside through the inlet 112 and water is discharged to the outside through the drain 114. The hypochlorous acid water is diluted by the water flowing through the inlet 112 And discharged to the drain 114.

In the present embodiment, the rotary electrode assembly 200 is rotatably incorporated in the dilution space 104, and the power generation module 300 is connected to the rotary electrode assembly 200. The rotating electrode assembly 200 is also rotated by the flow of water flowing through the inlet 112, thereby generating electricity in the power generation module 300. The electricity generated in the power generation module 300 is supplied to the fixed electrode 130 built in the electrolytic space 102 together with the electrode 220 of the rotating electrode assembly 200. As a result, 102, a series of reactions occurs in which hydrochloric acid is electrolyzed to produce hypochlorous acid.

On the other hand, as described above, hypochlorous acid is generated as the hydrochloric acid is electrolyzed and the produced chlorine gas is dissolved in water, and a hypochlorous acid water is obtained. However, a part of the chlorine gas is regenerated as hydrochloric acid The pH of the hypochlorous acid water is lowered.

H ₂ O + Cl _{2 -} > HOCl + HCl

However, since hypochlorous acid water has the best sterilizing power at the microacid level of pH 5 ~ 6.5, it is necessary to increase the pH of the hypochlorous acid water to a microacid level in order to improve the sterilizing power of hypochlorous acid water. In general, the pH of hypochlorous acid water is regulated to a weak acid region by increasing the supply of diluting water to dilute the hypochlorous acid water. When such a method is used, the pH of the hypochlorous acid water is adjusted to the acidic acidic region, There is a problem that the concentration of hypochlorous acid in water is lowered so that it does not have an effective sterilizing power.

However, in the present invention, regenerated hydrochloric acid is electrolyzed by the rotating electrode assembly 200, and hypochlorous acid is produced by the reaction as described above. As the hydrochloric acid in the dilution space 104 is electrolyzed by the rotating electrode assembly 200 as described above, 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.

When the hypochlorous acid water is generated by the electrolytic apparatus in this way, the water is effectively sterilized by the hypochlorous acid water.

4 shows a third embodiment of the present invention. In this embodiment, an extension portion 132 inserted into the dilution space 104 is protruded and extended at the distal end portion of the fixed electrode 130 built in the electrolysis space 102.

A through hole is formed in the partition plate 103 to allow the extension portion 132 to pass therethrough. Accordingly, when the fixed electrode 130 is provided, the extended portion 132 of the fixed electrode 130 is inserted into the dilution space 104 through the through-hole and is in contact with the water introduced into the dilution space 104.

A high current is applied to the fixed electrode 130 in the process of electrolysis of hydrochloric acid in the electrolytic space 102 and thus the electrode 130 is overheated and damaged. In this embodiment, the extended portion 132 of the fixed electrode 130, Is inserted into the dilution space 104 and is cooled by the water flowing into the dilution space 104, the fixed electrode 130 is prevented from being overheated and damaged. Of course, hydrochloric acid in the electrolytic space 104 is electrolyzed by the extension part 132 as well.

5 shows a fourth embodiment of the present invention. In this embodiment, the shaft member 210 of the rotating electrode assembly 200 is rotatably coupled to the cover 120 through the partition plate 103 .

Claims (3)

A housing 100 in which an electrolytic space 102 communicating with the inlet 112 and the drain 114 is formed is formed with a water hole 112 through which water flows from the outside and a drain hole 114 through which water is discharged to the outside, );
A shaft member 210 rotatably coupled to the housing 100 and a plurality of electrodes 220 protruding radially from the shaft member 210 so as to be connected to the electrolytic space 102, A rotating electrode body (200) built in and rotated by the flow of water flowing into the inlet (112); And
And a power generation module 300 connected to the rotating electrode assembly 200 and converting the rotating force of the rotating electrode assembly 200 into electricity,
Wherein electricity generated in the power generation module (300) is applied to the electrode (220), and electrolysis is performed in the electrolysis space (102).
The electrolytic space 102 and the dilution space 104 are formed in the electrolytic space 102. The electrolytic space 102 is formed with a hydrochloric acid inlet 106 through which dilute hydrochloric acid is injected, The hypochlorous acid generated in the electrolysis space 104 is introduced into the dilution space 104 between the electrolysis space 102 and the dilution space 104 A housing 100 in which a hypochlorous acid discharge hole 105 is formed;
A fixed electrode 130 embedded in the electrolytic space 102;
A shaft member 210 rotatably coupled to the housing 100 and a plurality of electrodes 220 coupled to the shaft member 210 so as to be radially projected from the shaft member 210. The shaft member 210 is disposed in the dilution space 104 A rotating electrode body (200) rotated by a flow of water flowing through the inlet (112); And
And a power generation module 300 connected to the rotating electrode assembly 200 and converting the rotating force of the rotating electrode assembly 200 into electricity,
Electricity generated in the power generation module 300 is applied to the electrodes 220 of the fixed electrode 130 and the rotating electrode assembly 200 so that electrolysis is performed in the electrolysis space 102 and the dilution space 104 Characterized by self-generating electrolytic apparatus.
3. The method of claim 2,
And an extension part (132) inserted into the dilution space (104) is formed in the fixed electrode (130).

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