KR20000056010A - Electrolysis Ion Water Reusable Method And Apparatus Thereof - Google Patents

Abstract

PURPOSE: A recycling method is provided which recycles acidic water generated from electrolyzing tap water at ion water electrolytic zone so that it reduces overuse of resource. CONSTITUTION: A recycling method of electrolyzed ion water comprises the steps of: (i) an ion decomposition step which decomposes tap water using the set ion decomposition unit into at least two kinds of ion water; (ii) a selective drainage step which selectively drains ion water to use out of two kinds of water through the set drainage tool; and (iii) a return step which returns unused ion water out of two kinds of water to a line of original water through a complex unit which contains a counterflow prevention unit wherein original water and unused ion water are mixed.

Description

Electrolytic ion water recycling method and apparatus therefor {Electrolysis Ion Water Reusable Method And Apparatus Thereof}

The present invention relates to a method and apparatus for recycling electrolytic ionized water, and more particularly, to an electrolytic ionized water recycling method and apparatus for reducing waste of resources by reusing alkaline water as drinking water and discarding acidic water when electrolyzing water.

1 is a block diagram showing an electrolytic cell 10 of a conventional electrolytic ion water generating device.

In general, a conventional electrolytic ion water generating device includes a main body (not shown) in which an electric circuit, an electrolytic cell, and a cartridge for water purification are accommodated.

The head of the main body has a cap for replacing the water purification cartridge. The water purification cartridge is a rectifier that inhales tap water and removes foreign substances, organic matter, rust, chlorine, and chlorcalc smells contained in tap water. The electrolytic cell 10 accommodates tap water that has passed through the water purification cartridge, and electrolyzes tap water by applying a DC voltage to the electrode 18 to generate alkaline water and acidic water.

2 is a diagram schematically illustrating an electrochemical reaction occurring in the electrolytic cell 10.

Referring to FIG. 2, a diaphragm 26, a cathode 24, and an anode 22 are provided in the electrolytic cell 10. The diaphragm 26 allows cathode ions and anode ions to pass through, and separates alkaline and acidic water in the electrolytic cell 10. The cathode 24 is formed of a stainless plate, for example. The anode 22 is formed of, for example, ferrite.

When a direct current voltage is applied to the negative electrode (alkaline electrode) 24 and the positive electrode (acidic electrode) 22, positive ions, which are mineral nutrients such as calcium, magnesium, sodium, and potassium present in tap water, adhere to the negative electrode. Further, negative ions such as chlorine, sulfuric acid, and sulfur stick to the anode. At the same time, since the hydrogen ions H ⁺ are taken away from the cathode by electrons and become hydrogen molecules (H ₂ ) and are blown away in the air, the hydroxyl ions (OH ⁻ ) are increased, and the water becomes alkaline. On the other hand, in the anode, since the hydroxyl ions (OH ⁻ ) give electrons to the anode to become oxygen molecules (O ₂ ) and fly off into the air, the hydrogen ions (H ⁺ ) increase and water becomes acidic. The reaction at the cathode and anode is expressed by the chemical equation as follows.

Cathode: 4H ⁺ + 4e → 2H ₂

_{^{Anode: 4OH - → O 2 + 2H}} 2 O + 4e

In this way, alkaline water comes out from the cathode side and acidic water comes out from the anode side.

However, in the conventional ionized water electrolytic cell method and apparatus configured as described above, the water at the cathode side is used as alkaline drinking water containing a lot of mineral nutrients, and the water at the anode side is discarded as acidic water, causing energy waste. there was.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to reduce the waste of resources by reusing the use of alkaline water as drinking water and discarding acidic water when electrolyzing water, and an apparatus for recycling electrolytic ionized water To provide.

1 is a block diagram showing an electrolytic cell of a conventional electrolytic ion water generating device

2 is a schematic representation of an electrochemical reaction taking place in an electrolytic cell

3 is an overall configuration diagram of the electrolytic ionized water recycling apparatus according to the present invention

4 is an exploded perspective view of an ionized water selective conversion unit according to the present invention;

5 is a perspective view of an ionized water selective conversion unit according to the present invention

Explanation of symbols on the main parts of the drawings

10: ionized water electrolyzer device part 12: raw water supply pipe

14: alkaline water discharge pipe 16: acidic water discharge pipe

18: electrode portion 22: acidic electrode

24: alkali electrode 26: diaphragm

100 ion selective conversion unit 110 conversion fixing plate

112a to 112c: Supporting 114: Fixed shaft

116a: first feedback tube 116b: second feedback tube

118a: first discharge pipe 118b: second discharge pipe

120: rubber packing 130: conversion movable plate

132: alkaline water inlet pipe 134: acidic water inlet pipe

136: conversion lever 138a, 138b: stopper

140: captive plate 142: fixed shaft

142a: shaft screw 150: mixer

152: ionized water inlet pipe 154: raw water inlet pipe

156: raw water discharge pipe

In order to achieve the above object, the electrolytic ionized water recycling method of the present invention,

An ion decomposition step of ionizing raw water into at least two kinds of ionized water using a predetermined ion decomposition means,

Selective drainage means for selectively discharging the ionized water to be used from among the at least two kinds of ionized water by using a predetermined discharge means;

And a returning step of returning the unused ionized water to the raw water line side among the at least two kinds of ionized water.

Here, the returning step is preferably returned to the ion decomposition means through a mixing means composed of a backflow preventer for mixing raw water and unused ionized water.

In order to achieve the above object, the electrolytic ionized water recycling apparatus of the present invention,

An electrolytic ionized water recycling apparatus comprising an ionized water electrolyzer device unit that electrolyzes at least tap water to generate alkaline water and acidic water,

A conversion fixing plate having a first feedback tube, a first discharge tube, a second discharge tube, a second feedback tube, a fixed shaft formed at the center of the tube, and a conversion fixing plate formed on one surface of the tube through a disc having a predetermined thickness. It is formed to be in close contact with one side of the, and has a conversion lever for adjusting the connection of two of the four tubes of the conversion fixing plate through the two tubes through which the alkaline and acidic water generated from the ionized water electrolyzer device part An ion water selective conversion means comprising a conversion movable plate, a fastening plate for tightly coupling the conversion fixed plate and the conversion movable plate to each other, and a rubber packing inserted between the conversion fixed plate and the conversion movable plate;

And mixing means for mixing the ionized water and the raw water flowing through the first feedback tube and the second feedback tube of the conversion fixing plate and inputting the ionized water electrolyzer device unit.

Electrolytic ionized water recycling method and apparatus of the present invention by the above configuration has the effect of saving the material by configuring to reuse the acidic water is discarded when the electrolysis of water with raw water.

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

In addition, in all the drawings for demonstrating an embodiment, the thing with the same function uses the same code | symbol, and the repeated description is abbreviate | omitted.

3 is an overall configuration diagram of an electrolytic ionized water recycling apparatus according to the present invention, Figure 4 is an exploded perspective view of the ionized water selective conversion unit 110 according to the present invention, Figure 5 is a perspective view of the ionized water selective conversion unit according to the present invention It is shown.

As shown in the drawing, the electrolytic ionized water recycling apparatus of the present invention accommodates tap water that has passed through a water purification cartridge and applies a DC voltage to the electrode 18 to electrolyze the tap water to generate alkaline water and acidic water. ), Including Then, the first feedback pipe 116a, the first discharge pipe 118a, the second discharge pipe 118b, the second feedback pipe 116b, which protrude on one surface through a disc having a predetermined thickness, and the center of these pipes A conversion fixing plate 110 having a fixed shaft 114 formed in the upper surface of the conversion fixing plate 110 is formed so as to be in close contact with the alkaline water and acid water generated from the ionized water electrolyzer device unit 10 Four of the conversion fixing plate through two pipes through which the alkaline water supply pipe 132 and the acidic water supply pipe 134 and the alkaline water and the acidic water introduced through the alkaline water supply pipe 132 and the acidic water supply pipe 134 pass through themselves. A conversion movable plate 130 having a conversion lever 136 that controls to selectively connect two spectators, and the conversion movable plate 130 such that the conversion fixing plate 110 and the conversion movable plate 130 are closely coupled to each other. Fixed shaft 11 of the conversion fixing plate 110 through 4) and an ionized water selective conversion device unit 100 including a fastening plate 140 screwed to the coupling plate and a rubber packing inserted between the conversion fixing plate 110 and the conversion movable plate 130.

In addition, the mixer 150 for mixing the water and the raw water through the first feedback pipe 116a or the second feedback pipe 116b of the conversion fixing plate 110 and input to the ionized water electrolyzer device unit 10 is provided with a mixer 150. It is done by

The operation of the ionized water selective conversion apparatus unit 100 according to the present invention by the above configuration will be described.

First, alkaline water generated in the ionized water electrolyzer device unit 10 is supplied to the alkali supply pipe 134 of the conversion movable plate 130 through a hose, and acidic water is supplied to the acidic water supply pipe 132. Meanwhile, two of the four tubes 116a and 116b of the four tubes protruding from the conversion fixing plate 110 are connected to the mixer 150 by a hose for mixing and reusing with raw water (tap water). Then, the remaining two tubes 118a and 118b output alkaline or acidic water, respectively, by adjusting the position of the conversion lever 136.

If the hole of the acidic water supply pipe 134 and the conversion movable plate 130 penetrated is connected to the second discharge pipe 118b, the alkaline water supply pipe 132 and the second feedback pipe 116b are connected to the acidic water. Outputted through the second discharge pipe 116b and the alkaline water is input to the mixer 150 through the second feedback pipe 116b and mixed with the raw water to be reused. And, when the hole of the alkaline water supply pipe 132 and the conversion movable plate 130 penetrated is connected to the first discharge pipe 118a, the alkaline water supply pipe 132 and the first feedback pipe 116a are connected, and the alkaline water is the first discharge pipe. Output through the 118a and the acidic water is input to the mixer 150 through the first feedback pipe 116a is mixed with the raw water to be reused.

The user adjusts the conversion lever 136 according to the purpose of using the ionized water to select the discharge pipe of alkaline water and acidic water, and then rotates the tightening plate 140 to closely couple the conversion movable plate 130 and the conversion fixing plate 110. . In this case, when the conversion movable plate 130 and the conversion fixing plate 110 are combined, a rubber packing 120 is used to prevent the water from leaking into the gap.

Alkaline or acidic water output through the first and second feedback tubes 116a and 116b of the conversion fixing plate 110 enters the first input tube 152 of the mixer 150 through a hose. At this time, the second input pipe 156 of the mixer 150 is configured to enter the raw water (tap water), and to be mixed with the alkaline or acidic water output through the first or second feedback pipe (116a, 116b). It is. The water mixed in the mixer 150 is secondly mixed in a process of being delivered through a hose connected to the raw water input tube 12 of the ionized water electrolyzer device unit 10.

On the other hand, a plurality of stoppers (138a, 138b) is formed on the side of the conversion movable plate 130, so as to limit the operation section by a plurality of stoppers (110a, 110b) formed on the side of the conversion fixing plate (110). It is. In addition, the ion-selective conversion device unit 100 of the present invention is provided with a plurality of support (112a ~ 112c) is installed on the shaft 114 of the conversion fixing plate 110 to be fixed using this.

In the above process, the raw water (tap water) mixed and reused in the mixer 150 was found to have no problem in electrolytic ion decomposition. Therefore, in the process of generating alkaline water and acidic water by electrolyzing tap water passing through the water purification cartridge, in the past, only alkaline water is used as drinking water and acidic water is discarded, resulting in waste of resources. With the cost was reduced.

As described above, according to the electrolytic ionized water recycling method and apparatus of the present invention, in the process of electrolyzing tap water passing through the water purification cartridge into the ionized water electrolyzer device to generate alkaline water and acidic water, only alkaline water is used as drinking water. Acidic water is a waste of resources by throwing away, but in the present invention, by providing an ionized water recycling apparatus so that it can be reused, there is a very excellent effect of saving resources and reducing costs.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to various modifications, changes, additions, etc. within the spirit and scope of the present invention, these modifications and changes should be seen as belonging to the following claims. something to do.

Claims (3)

An ion decomposition step of ionizing raw water into at least two kinds of ionized water using a predetermined ion decomposition means, Selective drainage means for selectively discharging the ionized water to be used from among the at least two kinds of ionized water by using a predetermined discharge means; And a returning step of returning the unused ionized water to the raw water line side, among the at least two kinds of ionized water. The method of claim 1, The returning step, the electrolytic ionized water recycling method, characterized in that returned to the ion decomposition means through a mixing means consisting of a backflow preventer for mixing raw water and unused ionized water. An electrolytic ionized water recycling apparatus comprising an ionized water electrolyzer device unit that electrolyzes at least tap water to generate alkaline water and acidic water, A conversion fixing plate having a first feedback tube, a first discharge tube, a second discharge tube, a second feedback tube, a fixed shaft formed at the center of the tube, and a conversion fixing plate formed on one surface of the tube through a disc having a predetermined thickness. It is formed to be in close contact with one side of the, and has a conversion lever for adjusting the connection of two of the four tubes of the conversion fixing plate through the two tubes through which the alkaline and acidic water generated from the ionized water electrolyzer device part An ion water selective conversion means comprising a conversion movable plate, a fastening plate for tightly coupling the conversion fixed plate and the conversion movable plate to each other, and a rubber packing inserted between the conversion fixed plate and the conversion movable plate; Electrolytic ionized water recycling apparatus characterized by comprising a mixing means for mixing the ionized water and the raw water flowing through the first feedback tube and the second feedback tube of the conversion fixing plate into the ionized water electrolyzer device unit.