KR20180091266A - Equipnent for electro-analysised water with cooling system - Google Patents

Abstract

The present invention relates to an electrolysis water system, which comprises: a filter unit purifying raw water; a cooling unit cooling the purified water to a set temperature; and an electrolytic unit electrolyzing cool water to generate electrolytic water, and specifically, a recirculation line recirculating the electrolytic water discharged from the electrolytic unit to the cooling unit and lowering the electrolytic water to the set temperature is provided to recirculate the temperature-risen electrolytic water during an electrolytic water production process, thereby providing the electrolytic water system having a cooling system capable of supplying the electrolytic water in a cool state at the set temperature.

Description

[0001] The present invention relates to an electro-

The present invention relates to an electrolytic water supply machine having a cooling system, and more particularly, to an electrolytic water supply system having a cooling system, in which cold water having a predetermined temperature is circulated through an electrolytic unit to generate ionized or hydrogenated electrolytic water, And a cooling system that can be supplied at a set temperature by recirculation.

Generally, ionized water or hydrogenated water is an electrolytic water that is chemically decomposed by passing current through the water, and is collectively referred to as electrolytic water.

As shown in FIG. 1, the conventional electrolytic water supply unit for supplying electrolytic water includes a filter unit 10 for purifying raw water, a cooling unit 20 for cooling the purified water to a set temperature, And an electrolytic unit 30 for generating electrolytic water.

However, since the electrolytic water supplied from the electrolytic unit is higher in temperature than the set temperature because the temperature of the electrolytic water is raised in the process of electrolyzing the cold water in the electrolytic unit even if cold water lowered to the user- State. Therefore, conventionally, there is a problem that electrolytic water having a temperature set by the user can not be consumed.

The main object of the present invention is to provide a cooling system in which electrolytic water having a predetermined temperature is circulated from a cooling unit to an electrolytic unit to generate electrolytic water and electrolytic water having a temperature raised in the electrolytic water production process is recirculated to the cooling unit, And the like.

Another object of the present invention is to provide an electrolyzer having a cooling system in which a stirring shaft is provided inside a tank for storing cooling water so that the cooling water stored in the tank can maintain the same cooling temperature as a whole.

The electrolytic water machine includes a filter unit for purifying raw water, a cooling unit for cooling the purified water to a set temperature, and an electrolytic unit for electrolyzing the cool water to generate electrolytic water. And a recirculation line for reducing the temperature of the electrolytic water to the predetermined temperature by recirculating the electrolytic water to the cooling unit. The recirculation line is preferably formed of a bellows to increase the cooling efficiency. The recirculation line may include a plurality of cooling induction plates for increasing cooling efficiency. The cooling unit includes a tank for storing cooling water; A refrigerant line for circulating the refrigerant into the tank; A cold water line for circulating the purified water to the inside of the tank; A recirculation line for circulating the electrolytic water into the tank; And a stirring shaft for circulating the cooling water stored in the tank. The refrigerant line is installed in the tank so as to circulate in the form of a coil, while the cold water line is installed to circulate in the form of a coil inside the refrigerant line, and the recirculation line circulates in a zigzag form at one side of the refrigerant line Installed and configured. The stirring shaft is installed at the inner center of the cooling line.

According to the electrolytic water supply apparatus having the cooling system of the present invention, electrolytic water is generated by circulating cold water having a predetermined temperature in the cooling unit to the electrolytic unit, and electrolytic water having a temperature raised in the electrolytic water production process is recirculated to the cooling unit , The user can drink the electrolytic water cooled at the set temperature.

In addition, there is an effect of maximizing the cooling efficiency by cooling the cooling water in the tank uniformly by providing a stirring shaft at the center of the cooling line.

1 is a schematic view showing a conventional electrolytic water purifier.
Fig. 2 is a schematic view showing an electrolytic water generator having a cooling system to which the present invention is applied. Fig.
3 is a sectional view showing a cooling section of an electrolytic water generator having a cooling system to which the present invention is applied.
4 is an exploded view showing a cooling unit of an electrolytic water generator having a cooling system to which the present invention is applied.

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

The electrolytic water purifier having the cooling system of the present invention includes a filter unit 100 for purifying raw water as shown in FIGS. 2 to 4, a cooling unit 200 for cooling the purified water to a set temperature, An electrolytic unit 300 for electrolyzing cold water to generate electrolytic water and a recirculation line 240 for recirculating the electrolytic water discharged from the electrolytic unit 300 to the cooling unit 200 to lower the temperature to the set temperature. do.

The filter unit 100 is for purifying foreign substances contained in the raw water. As shown in the figure, the filter unit 100 can sequentially filter out foreign matter through two or more filters, if necessary.

The cooling unit 200 is used to cool the purified water to a predetermined temperature. The cooling water is filled in the tank and the temperature of the cooling water is adjusted to cool the purified water passing through the cooling water. At this time, the cooling unit 200 allows the temperature of the electrolytic water to cool to a predetermined temperature by passing the recirculation line 240, which will be described later.

At this time, the recirculation line 240 is formed as a corrugated pipe so that the cooling efficiency of ionized water or hydrogenated water flowing into the recirculation line 240 is maximized.

In addition, a plurality of cooling induction plates are inserted into the recirculation line 240 to maximize the cooling efficiency of ionized water or hydrogenated water flowing into the recirculation line 240.

As shown in FIGS. 3 and 4, the cooling unit 200 includes a tank 210 for storing the cooling water, a refrigerant line 220 for circulating the refrigerant into the tank 200, A circulation line 240 for circulating the electrolytic water to the inside of the tank, and a stirring shaft 250 for circulating the cooling water stored in the tank. do. In this case, the tank 210 is composed of a main body and a lid, for example, as shown in the figure, and a bottom or bottom of the main body is provided with a supply port or a discharge port for supplying or discharging cooling water. Includes a motor that drives at a constant speed.

Therefore, according to the structure of the cooling unit 200, the refrigerant circulating through the refrigerant line 220 lowers the temperature of the cooling water, and the purified water passes through the cold water line 230, Therefore, it becomes cool cold water of set temperature. In addition, since the electrolytic water passes through the recirculation line 240 and is heat-exchanged with cooling water at a low temperature, the electrolytic water can be coolly supplied at a predetermined temperature. In addition, since the stirring shaft 250 continuously stirs the cooling water, the cooling water is prevented from being frozen around the refrigerant line 220, and the temperature of the cooling water stored in the tank 210 is uniformly maintained So that a smooth heat exchange with the recirculation line 240 can be achieved.

3 and 4, the cooling unit 200 is installed in the tank so as to circulate in the form of a coil, and the cold water line 230 is connected to the refrigerant line And the recirculation line 240 is installed to circulate in a staggered manner at an outer side of the refrigerant line, and the stirring shaft 250 is installed at an inner center of the cooling line. That is, the cooling unit 200 is provided with a cold water line 230 inside the refrigerant line 220 so as to lower the temperature of the purified water passing through the cold water line 230, The recirculation line 240 is installed at one side of the refrigerant line 220 so that the temperature of the electrolytic water passing through the refrigerant line 240 can be lowered. The reason why the cold water line 230 is installed inside the coolant line 220 and the recirculation line 240 is installed outside is that the purified water passing through the cold water line 230 is at room temperature and the recirculation line 240 Because the temperature is relatively higher than the electrolytic water passing through.

The electrolytic unit 300 generates electrolytic water by electrolyzing the cool water, and the electrolytic water may be normal ionic water or hydrogen water. At this time, the electrolytic water discharged from the electrolytic unit 300 is recirculated to the cooling unit 200 by the recirculation line 240 while being lowered to the set temperature, that is, the temperature discharged from the cooling unit, Lt; / RTI >

According to the present invention, the electrolytic water whose temperature has been raised in the electrolytic water production process can be supplied to the cooling unit by recirculating the electrolytic water to the set temperature, so that the user can drink the electrolytic water that has always been cooled to the set temperature.

100:
200: cooling section 210: tank
220: Refrigerant line 230: Cold water line
240: Recirculation line 250: Stirring shaft
300: electrolytic bath

Claims (6)

A cooling unit 200 for cooling the purified water to a predetermined temperature, and an electrolytic unit 300 for electrolyzing the cool water to generate electrolytic water. The electrolytic water purifier includes a filter unit 100 for purifying raw water, And a recirculation line (240) for recirculating the electrolytic water discharged from the electrolytic unit (300) to the cooling unit (200) and lowering the electrolytic water to the set temperature.
The method according to claim 1,
Wherein said recirculation line is formed in a pleated-tube shape.
The method according to claim 1,
Characterized in that the recirculation line is fixed on the line by a plurality of cooling induction plates.
The method according to claim 1,
The cooling unit 200 includes: a tank 210 for storing cooling water; A refrigerant line (220) for circulating the refrigerant into the tank; A cold water line (230) for circulating the purified water to the inside of the tank; A recirculation line (240) for circulating the electrolytic water into the interior of the tank; And a stirring shaft (250) for circulating the cooling water stored in the tank.
The method of claim 4,
The refrigerant line (220) is arranged to circulate in the form of a coil inside the tank, while the cold water line (230) is installed to circulate in the form of a coil inside the refrigerant line, and the recirculation line (240) Is arranged so as to circulate in a zigzag form at an outer side of the electrolytic water treatment apparatus
The method of claim 4,
Wherein the stirring shaft (250) is installed at an inner center of the cooling line.

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