KR200164034Y1 - Water ionizer - Google Patents

Abstract

The present invention relates to a fresh water type ionizer, and the conventional ionizer is generally a water direct connection, and thus has an advantage of ionizing a relatively large amount of water in a short time, but the manufacturing cost is excessive due to its complicated structure. There is a flaw, and the electrolytic cell is made of a sealed titanium plate, so it is difficult to clean the inside, and if it is used for a long time, there was a defect that the electrolytic cell needs to be replaced, and the present invention forms a fresh water tank with ceramics. By making the diaphragm into gypsum, the manufacturing cost is greatly reduced and the internal cleaning is made easy, so that it can be configured as an electrolytic cell that does not need to be replaced.

Description

Fresh Water Ionizer {Water ionizer}

The present invention relates to a fresh water ionizer, and in particular, an electrolytic cell for fresh water is not formed in a hermetic or titanium as in the prior art, but is formed of porcelain and a diaphragm is formed of gypsum. It is to provide an ionizer which can significantly reduce the manufacturing cost.

Conventional ionizers are usually directly connected to the water, which has the advantage of ionizing a relatively large amount of water in a short time. However, the structure is complicated and the manufacturing cost is excessive, and the electrolytic cell is made of a sealed titanium plate. If it is difficult to clean and use it for a long time, there was a defect that the electrolytic cell had to be replaced.

Thus, the present invention forms the electrolytic cell in ceramics and the diaphragm in gypsum, thereby greatly reducing the manufacturing cost, facilitating internal cleaning, and making the cell free of replacement and ionizing the electrolytic cell. The water is desalted and then ionized by applying power to it, and after the ionization is completed, the ionized water is removed, and after the extraction is completed, fresh water can be deionized in the electrolytic cell to be ionized, even though the water is ionized. Although there are many drawbacks, the present invention is to provide an ionizer which can greatly reduce the manufacturing cost, and the present invention will be described with reference to the accompanying drawings.

1 is a simplified schematic diagram of an embodiment of the present invention

≪ Description of Codes for Major Parts of Drawings>

Electrolyzer

2 ................... diaphragm

31, 32 ......... electrode plate

4 .............. Intermittent supply line

41 ............

5 .............. Electrolyte solution tank

6 .............. Pump

The ionizer of the present invention is an electrode plate (31, 32) provided in the electrolytic cell 1, the diaphragm 2 provided therein, and the electrolytic cell 11, 12 divided by the diaphragm 2, respectively. In the configuration, the supply pipe for supplying the water to be ionized in the electrolytic cell 1, it is formed as an intermittent supply pipe (4), the electrolyte solution tank (5) for supplying the electrolyte to the electrolytic cell 1 and Combines the ionized water collecting means for removing the ionized water, the electrolytic cell (1) is characterized in that it is formed of porcelain, the diaphragm (2) is formed of gypsum.

The ionizer of the present invention performs fresh water in the electrolytic cell 1, and then stops supply of water and performs ionization. Therefore, in the related art, a separate distinguishing device is required in which the water supplied and the ionized water are not mixed with each other while the electrolytic cell is directly connected to the tap water, so that the water supplied is ionized, but according to the present invention, new water is supplied after fresh water. By installing the intermittent supply pipe 4 to stop the operation, it is possible to omit the installation of the expensive discriminating device as in the prior art. That is, the present invention controls the water supply through the intermittent supply pipe (4) by a motor or the like, supplying water until the electrolytic cell 1 is cold, performing ionization after the supply of water is finished, and exiting the ionized water after the ionization is completed. And it was made to perform the ionization work by supplying the raw water to be ionized to the leg electrolyzer (2). That is, the intermittent supply pipe 4 is composed of the pipe 41 and the pump 6 coupled thereto, and enables the intermittent supply of raw water by operating the pump 6 intermittently.

Sodium, potassium, etc. are known as an electrolytic substance added to the electrolyte solution tank 5.

The present invention configured as described above has an effect that the configuration of the electrolytic cell is simple and the material thereof is ceramic, so that the manufacturing cost is extremely low as compared with the conventional electrolytic cell. In particular, since the ionizer of the present invention is composed of a diaphragm and also a gypsum can reduce the manufacturing cost of the diaphragm, the ionizer of the present invention as a whole has an effect that can significantly reduce the manufacturing value compared to the conventional ionizer. In addition, the ionizer of the present invention is composed of a fresh water, it is possible to clean the inside of the fresh water suspended state. Therefore, the ionizer of the present invention has an effect that there is no defect that must be disposed of because of contamination of the electrolytic cell.

Claims (1)

In the electrolytic cell 1, the diaphragm 2 provided in the inside, and the electrode plates 31 and 32 provided in the both electrolytic cell 11 and 12 divided by the diaphragm 2, the electrolytic cell 1 The supply pipe for supplying the water to be ionized into the intermittent supply pipe (4), to combine the electrolyte solution tank (5) for supplying the electrolyte to the electrolytic cell (1), to combine the ionized water collecting means for collecting ionized water, 1) is formed of porcelain, and the diaphragm (2) is a freshwater ionizer characterized in that it is formed of gypsum.