KR100662595B1 - Ion warter an apparatus - Google Patents

Abstract

The present invention relates to an ionized water generating device that ionizes drinking water, the configuration of which comprises: a first chamber in which the alkaline water is generated inside the electrolytic cell (30) in the ionized water generating device comprising the cold water tank (20) and the electrolytic cell (30). And a second chamber 33 in which acidic water is generated, and the main supply line 10 for supplying raw water is separated into first and second supply lines 12 and 13 to form the first supply line ( 12 is connected to the second chamber 33 of the electrolytic cell 30, and the second supply line 13 is connected to the cold water tank 20 and at the same time through the third supply line 14 30 is connected to the first chamber 32, and the discharge device 34 for discharging alkaline and acidic water in the first and second chambers 32 and 33 in the electrolytic cell 30 is achieved. .

According to the present invention, the clean water supplied through the raw water main supply line purified through the general water or the filter is separated in advance into the water to be alkaline water and the water to be acidic water, and the water to be acidic water is supplied through the first supply line. Since the water to be supplied directly to the acidic water generating chamber of the electrolytic cell and the water to be alkaline water are supplied to the alkaline water generating chamber of the electrolytic cell via the cooling vessel through the second and third supply lines, the cooling water cooled in the cooling vessel as in the prior art There is an advantage to effectively prevent the unreasonable structure that is wasted and discarded after being separated into acidic water in, there is an advantage to obtain an improvement in energy efficiency accordingly.

Ionized Water, Acidic Water, Alkaline Water, Electrolyzer, Water, Cold Water Bottle

Description

Ion water generator

1A and 2B are structural diagrams of an ionized water generator according to the related art.

Figure 2a, 2b is a structural diagram of the ionized water generating device according to the present invention.

3 is an electrolytic cell structure diagram of an ionized water generating device according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10-Main Supply Line 12,13-First and Second Supply Line

14-3rd Supply Line 20-Cold Water Container

22,23,24-Pump 30-Electrolyzer

31-diaphragm 32,33-1st, 2nd room

34-exhaust

The present invention relates to an ionized water generating device for ionizing drinking water, and more particularly, clean water purified by a purified water filter is classified into water to be acidified in advance and water to be alkalized, and the water to be acidified is immediately supplied to the electrolytic cell, and only water to be alkaline water. The present invention relates to a high-efficiency ionized water generating device that minimizes waste such as cooling water being acidified in an electrolytic cell by supplying it to a cold water container.

In the conventional ionized water generating device, as shown in FIG. 1A, purified water is ionized while passing through an electrolytic cell 1, and alkaline water is stored in a cold water container 2 for drinking, and acidic water is discarded as it is. .

However, the conventional ionized water generator is stored in the cold water tank (2) and most of the ionicity is lost during the time to stay until it is consumed by cooling and drinking, in fact, the actual drinking water has no ionic effect or insignificant disadvantages and alkali There is a problem that a functional defect such as a substance having a property, namely calcium, is caught in the cooling tube 2 and affects the opening and closing operation of the valve.

In order to alleviate these disadvantages, the present invention has been invented a device for generating ionized water of registered utility model No. 292242 shown in FIG.

This type of ionized water generating device stores the purified water purified in the cold water container 4, cools it, distributes it to the electrolytic cell 5, separates the acidic water from the alkaline water, and the alkaline water is used for drinking. Acidic water was discarded. That is, the clean water is cooled through the cold water tank 4 and then passed through the electrolytic cell 5 to be ionized.

However, the ion water generator of this type does not have a phenomenon in which ions such as calcium are caught in the cold water container 4, but after ionizing the cooling water cooled in the cold water container 4 in the electrolytic cell 5, the acidic water is discharged as it is. There was a problem that a lot of energy that was used for cooling is wasted as it is.

The present invention was devised to solve the problem that the cooling water containing cooling energy is classified as acidic water, and the water to be acidified by dividing the purified water purified by the purified water filter into acidic and alkaline water in advance. It is an object of the present invention to provide an ionized water generating device which minimizes waste such as cooling water being acidified in an electrolytic cell by supplying an electrolytic cell and supplying only water to be alkaline water to a cold water container.

The present invention for achieving the above object,

In the ionized water generating device comprising a cold water tank and an electrolytic cell,

A first chamber in which alkaline water is generated and a second chamber in which acidic water is generated,

The main supply line for supplying raw water such as general water or clean water passing through the filter is separated into first and second supply lines, and the first supply line is connected to the second chamber of the electrolytic cell through the second supply line, and the second supply line is the cold water. At the same time as the tub and connected to the first chamber of the electrolytic cell through a third supply line,

It is achieved by installing a discharge device for discharging alkaline and acidic water in the first and second chambers in the electrolytic cell.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail as follows.

2A and 2B are structural diagrams of an ionized water generating device according to the present invention, and FIG. 3 is a structural diagram of an electrolytic cell of the ionized water generating device according to the present invention. As shown, a cold water container 20 and an electrolytic cell 30 are basically formed. .

In addition, the clean water supply line purified from the purified water filter or the main water supply line 10 for supplying general water, that is, raw water, is separated into first and second supply lines 12 and 13 so that one side supply line, that is, the first supply line ( 12 is connected to the electrolytic cell 30, the second supply line 13 is connected to the cold water tank 20 and at the same time the cold water of the cold water tank 20 through the third supply line 14 electrolytic cell 30 It is connected to the third supply line 14, the pump 22 for discharging the cold water of the cold water tank 20 is installed. If necessary, the pump 23 may be installed in the first supply line 12 as shown in FIGS. 2A and 2B, and the pump 24 may be installed independently of the main supply line 10.

As shown in FIG. 3, the electrolyzer 30 is alternately provided with electrodes 38 and 39 that are divided into positive and negative portions at regular intervals therebetween, and the diaphragm 31 is disposed between the electrodes 38 and 39. In this case, a plurality of yarns are configured on both sides, one side of which is divided into a first chamber 32 in which alkaline water is generated, and the other side of the yarn is composed of a second chamber 33 in which acidic water is generated. In this case, the diaphragm 31 is made of a material capable of moving ions.

Here, the first and second chambers 32 and 33 of the electrolytic cell 30 communicate with the chambers including the positive electrode 38 to share the inflow and discharge functions of water and at the same time the negative electrode 39. The yarns, including), also communicate with each other so that the water inflow and discharge functions can be shared separately. Although not shown, the electrodes 38 and 39 are electrically connected to a power supply.

In addition, the first supply line 12 connected to the electrolytic cell 30 is connected to the second chamber 33, and the third supply line 14 is connected to the first chamber 32. The first and second chambers 32 and 33 are connected to a discharge device 34 including alkali and acidic water discharge ports 35 and 36 which can be discharged and utilized when necessary. At this time, it is preferable that the discharge device 34 to discharge the acidic water at the same time when discharging the alkaline water.

Looking at the operation of the ionized water generating device of the present invention having such a configuration as follows.

First, the purified water purified from the water filter is separated and supplied to the first and second supply lines 12 and 13 through the main supply line 10 (supply pipe).

Subsequently, the water of the first supply line 12 flows into the second chamber 33 of the electrolytic cell 30, and the water supplied to the second supply line 13 flows into the cold water tank 20 to cool the device. It is stored at low temperature by. Subsequently, the cold water of the cold water tank 20 is introduced into the first chamber 32 of the electrolytic cell 30 through the third supply line 14.

In addition, in the electrolytic cell 30, alkaline ionized water is generated in the first chamber 32 having the positive electrode 38 by the movement of ions through the diaphragm 31 by the ionization reaction, and the negative electrode 39 is formed. In the excited second chamber 33, acidic ionized water is generated.

In this state, when the discharge device 34, that is, the discharge cock 37 of the alkaline water outlet 35 is operated to drink the alkaline water, the alkaline water is discharged and the pump 22 operates to electrolyze the cold water in the cold water tank 20. The first chamber 32 is supplied to the first chamber 32 to proceed with the ionization process described above.

On the other hand, the acidified water is discharged through the acidic water outlet 36 with the discharge of alkaline water.

As described above, in the present invention, the raw water supplied through the main supply line, such as general water or clean water purified through a filter, is separated in advance into water to be alkaline water and water to be acidic water, and thus the water to be acidic water is first selected. It is supplied directly to the acidic water generating chamber of the electrolytic cell through the supply line, and the water to be alkaline water is supplied to the alkaline water generating chamber of the electrolytic cell via the cooling vessel through the second and third supply lines. There is an advantage that can effectively prevent the unreasonable structure that is discarded and discarded after the separated cooling water is separated into acidic water in the electrolytic cell, there is an advantage to obtain an improvement in energy efficiency accordingly.

Claims (5)

In the ionized water generating device comprising the cold water tank 20 and the electrolytic cell 30, The electrolyzer 30 alternately installs electrodes 38 and 39 of a cathode and an anode for ionization therein, A diaphragm 31 capable of moving ions between the electrodes 38 and 39 is provided to constitute each chamber. The chambers comprising the same electrodes 38 and 39 are formed in a first chamber and a second chamber in which alkali and acidic water are largely communicated with each other, and the water inlet and outlet of each chamber are separately configured. . In the ionized water generating device comprising the cold water tank 20 and the electrolytic cell 30, The positive and negative electrodes 38 and 39 are alternately installed in the electrolytic cell 30, and the diaphragm 31 is installed between each of the electrodes 38 and 39, so that alkaline water is formed on one side thereof. One chamber 32 and the other side is composed of a second chamber 33 in which acidic water is produced, The main supply line 10 for supplying water is separated into first and second supply lines 12 and 13, and the first supply line 12 is connected to the second chamber 33 of the electrolytic cell 30 through the first supply line 12. The second supply line 13 is connected to the cold water tank 20 and is connected to the first chamber 32 of the electrolytic cell 30 through the third supply line 14. Ionized water generator, characterized in that the discharge device for discharging alkaline and acidic water in the first and second chambers (32,33) in the electrolytic cell (30). The method of claim 2, wherein the first and second chambers 32, 33 of the electrolytic cell 30, Alternately install the electrodes 38 and 39 of the cathode and anode for ionization in the space of the electrolytic cell 30, A plurality of seals are formed by installing a diaphragm 31 which allows the movement of ionic materials between the electrodes 38 and 39. In general, the threads including the positive electrode 38 communicate with each other to share water inflow and discharge functions, and the threads including the negative electrode 39 also communicate with each other to share the inflow and discharge functions of the water separately. Ion water generator, characterized in that. The method of claim 3, wherein Ionized water generator, characterized in that the pump (23) is provided in the third supply line (14). 5. The ionized water generating device according to claim 4, wherein a pump (24) is provided in said first supply line (12).

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