KR102026943B1 - Equipnent for electro-analysised water with cooling system - Google Patents

Abstract

The present invention relates to an electrolytic water reactor including a filter unit for purifying raw water, a cooling unit for cooling the purified water to a set temperature, and an electrolytic unit for generating electrolytic water by electrolyzing the cool cold water. A recycling line for recycling the electrolyzed water discharged from the electrolytic unit to the cooling unit to lower the set temperature to the set temperature; as configured, the electrolyzed water whose temperature rises in the process of generating the electrolytic water may be recycled to the cooling unit to supply a cool state at a predetermined temperature. It is to provide an electrolyzer having a cooling system.

Description

Equipnent for electro-analysised water with cooling system

The present invention relates to an electrolyzer having a cooling system, and specifically, to circulate cold water at a temperature set in a cooling unit to an electrolytic unit to generate ionized or hydrogenated electrolytic water, wherein the electrolyzed water whose temperature rises in the process of producing electrolytic water is cooled to the cooling unit. The present invention relates to an electrolyzer having a cooling system that can be recycled and supplied at a set temperature.

In general, ionized water or hydrogen water is an electrolytic water that undergoes an electrolytic process of chemically decomposing by passing an electric current through water.

As shown in FIG. 1, a conventional electrolytic water supplying electrolyzed water delivers a filter unit 10 for purifying raw water, a cooling unit 20 for cooling the purified water to a set temperature, and the cool cold water. It consists of an electrolytic unit 30 for generating electrolytic water.

However, even if the electrolytic water is supplied with cold water lowered to a temperature set by the user in the cooling unit, the temperature of the water increases during electrolysis of the cold water in the electrolytic unit, so the electrolyzed water supplied from the electrolytic unit is higher than the set temperature. It becomes a state. Therefore, conventionally, there is a problem in that the user cannot drink the electrolyzed water at a temperature set by the user.

The main object of the present invention is to produce the electrolytic water by circulating the cold water of the temperature set in the cooling unit to the electrolytic unit, the cooling system to supply the cooling water of the set temperature by recycling the electrolyzed water whose temperature rises during the electrolytic water generation process to the cooling unit It is to provide an electrolytic water having.

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

The present invention provides an electrolytic water reactor including a filter unit for purifying raw water, a cooling unit for cooling the purified water to a set temperature, and an electrolytic unit for generating electrolytic water by electrolyzing the cool cold water, wherein the discharge unit is discharged from the electrolytic unit. A recirculation line for recycling the electrolyzed water to the cooling unit to lower the set temperature to the set temperature. The recycle line is preferably formed of bellows to increase the cooling efficiency. The recirculation line may be composed of a plurality of cooling induction plate in order to increase the cooling efficiency. The cooling unit is a tank for storing the cooling water; A refrigerant line for circulating a refrigerant into the tank; A cold water line for circulating the purified water into the tank; A recycling line for circulating the electrolyzed water into the tank; And a stirring shaft for circulating the cooling water stored in the tank. The coolant line is installed to circulate in a coil form inside the tank, while the cold water line is installed to circulate in a coil form inside the coolant line, and the recirculation line is circulated in a zigzag form on one side of the coolant line. Installed and configured. The stirring shaft is installed at the inner center of the cooling line.

According to the electrolytic water reactor having the cooling system of the present invention, by circulating the cold water of the temperature set in the cooling unit to the electrolytic unit to generate the electrolytic water, by recycling the electrolyzed water, the temperature rises in the process of producing the electrolytic water to the cooling unit to supply to the set temperature , The user has the effect of drinking the cool electrolytic water at the set temperature.

In addition, there is an effect of maximizing the cooling efficiency by arranging the stirring shaft in the center of the cooling line to cool the cooling water evenly in the tank.

1 is a block diagram showing a conventional electrolytic water.
Figure 2 is a block diagram showing an electrolytic water having a cooling system to which the present invention is applied.
3 is a cross-sectional view showing a cooling unit of the electrolyzer having a cooling system to which the present invention is applied.
Figure 4 is an exploded view showing a cooling unit of the electrolyzer having a cooling system to which the present invention is applied.

On the basis of the accompanying drawings a preferred embodiment of the present invention will be described in detail.

Electrolytic water having a cooling system of the present invention, as shown in Figures 2 to 4, the filter unit 100 for purifying the raw water, the cooling unit 200 for cooling the purified water to a set temperature, the cool Electrolytic unit 300 for electrolytic cold water to produce electrolytic water and a recycling line 240 for reducing the electrolytic water discharged from the electrolytic unit 300 to the cooling unit 200 to lower the set temperature do.

The filter unit 100 is for purifying foreign matters contained in raw water, and so on, as shown in the figure, to filter out foreign matters sequentially through two or more filters as necessary.

The cooling unit 200 is to cool the purified water to a set temperature, and to cool the temperature of the purified water passing through the cooling water by filling the cooling water in the tank and adjusting the temperature of the cooling water. At this time, the cooling unit 200 cools the temperature of the electrolyzed water to the set temperature while passing through the recirculation line 240 to be described later.

At this time, the recirculation line 240 is formed by a corrugated pipe to maximize the cooling efficiency of the ionized water or hydrogen water flowing to the recirculation line 240.

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

As shown in FIG. 3 and FIG. 4, the cooling unit 200 includes a tank 210 for storing the cooling water, a refrigerant line 220 for circulating a refrigerant into the tank, and the tank. Cold water line 230 for circulating the purified water therein, a recycling line 240 for circulating the electrolytic water into the tank and a stirring shaft 250 for circulating the cooling water stored in the tank do. At this time, the tank 210 is composed of a main body and a lid, for example, as shown in the drawing is a supply port or outlet for supplying or discharging the cooling water is formed on the bottom of the body, the stirring shaft 250 Includes a motor that drives at a constant speed.

Therefore, according to the configuration 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, and the heat exchange with the cooling water of the low temperature is made. This results in cool cold water at the set temperature. In addition, the electrolyzed water can be supplied coolly at a set temperature because heat exchange is performed with the coolant at a low temperature while passing through the recirculation line 240. In addition, since the stirring shaft 250 continuously stirs the cooling water, the cooling water is prevented from freezing around the refrigerant line 220, while maintaining the temperature of the cooling water stored inside the tank 210 as a whole. As a result, smooth heat exchange is performed with respect to the recirculation line 240.

3 and 4, the cooling unit 200 is installed to circulate in a coil form inside a tank, while the cold water line 230 is the refrigerant line. Is installed to circulate in the form of a coil in the interior, the recirculation line 240 is installed to circulate in a zigzag form on the outer side of the refrigerant line, the stirring shaft 250 is installed in the inner center of the cooling line. That is, the cooling unit 200 primarily installs the cold water line 230 into the refrigerant line 220 so as to lower the temperature of the purified water passing through the cold water line 230, and recirculates the secondary line. In order to lower the temperature of the electrolyzed water passing through the 240, the recirculation line 240 is installed at an outer side of the refrigerant line 220. In this case, the reason why the cold water line 230 is installed inside and the recirculation line 240 is installed outside based on the refrigerant line 220 is because the purified water passing through the cold water line 230 is room temperature. This is because the temperature is relatively higher than the electrolyzed water passing through).

The electrolytic unit 300 is to generate electrolytic water by electrolytically cooling the cool water, the electrolytic water may be a normal ionized water or hydrogen water. At this time, the electrolytic water discharged from the electrolytic unit 300 is recycled to the cooling unit 200 by the recirculation line 240 while the nozzle is lowered to a temperature equal to the set temperature, that is, the temperature discharged from the cooling unit Is discharged through.

According to the present invention as described above, by allowing the electrolyzed water whose temperature rises in the process of producing the electrolyzed water to be recirculated to the cooling unit to supply the set temperature, the user can always drink the electrolyzed water cooled to the set temperature.

100: filter unit
200: cooling unit 210: tank
220: refrigerant line 230: cold water line
240: recirculation line 250: stirring shaft
300: electrolyzer

Claims (6)

Filter unit 100 for purifying the raw water, a cooling unit 200 for cooling the purified water to a set temperature, and an electrolytic unit 300 for electrolyzing the cool cold water to generate electrolytic water, the electrolysis In the electrolyzer having a cooling system consisting of; a recycling line 240 for recycling the electrolyzed water discharged from the unit 300 to the cooling unit 200 to lower to the set temperature;
The recirculation line is formed in a corrugated tube shape or a plurality of cooling guide plates are fitted on the line,
The cooling unit 200 is a tank 210 for storing the cooling water; A refrigerant line 220 for circulating a refrigerant into the tank; A cold water line (230) for circulating the purified water into the tank; A recirculation line 240 for circulating the electrolyzed water into the tank; And a stirring shaft 250 for circulating the cooling water stored in the tank.
The coolant line 220 is installed to circulate in a coil form inside the tank, while the cold water line 230 is installed to circulate in a coil form inside the coolant line, and the recirculation line 240 is the coolant line. Electrolyzer having a cooling system, characterized in that it is installed to circulate in a zigzag form on the outer side of the.
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