KR20110082436A - Method for controlling cooling water supply of cold water ionizer - Google Patents

Abstract

PURPOSE: A cooling water supply control method of a cool water ionizer is provided to wash a cool water supply tank by operating a mixer while supplying refrigerant to the cool water tank. CONSTITUTION: A cooling water supply control method of cool water ionizer is as follows. The operating state of a cool water switch is determined. The first water supply operates a cool water tank valve(14) for a set time when the cold water switch is turned on. Drainage operates a cool water tank drain valve for a set time. The second water supply operates the cool water tank valve after pumping out the cooling water.

Description

Cooling water supply control method of cold ion water purifier {METHOD FOR CONTROLLING COOLING WATER SUPPLY OF COLD WATER IONIZER}

The present invention relates to a cooling water supply control method of the cold ion water purifier, and more particularly, when the cold water switch is turned on in the cold ion water purifier to operate the stirrer while supplying the cooling water to the cold water tank to break the cold water tank so that the water is supplied again. It relates to a cooling water supply control method of the cold ion water purifier.

As industrialization rapidly progresses, people's lives become more convenient and enriched, while environmental pollution is getting worse day by day, due to global warming phenomenon, various forms of extreme weather occur in various countries around the world, resulting in property damage and casualties. have.

In particular, water, the source of life, is becoming increasingly contaminated due to the unauthorized discharge of waste and wastewater, and most households boil water because more and more chemicals are administered to purify the contaminated water. .

In addition, water purifiers have been used in homes. Such general water purifiers are used to filter and purify oxides, heavy metals, dust and debris contained in water by using filters including activated carbon and ion membranes. This is used.

Initially, the water purifier was used by stacking activated carbon in a purified water container and pouring water into the purified water container for natural purification.However, this method does not clean the inside of the purified water container frequently, so that foreign matters are deposited in activated carbon or inside of the purified water container. There is a problem that the purified water is decayed.

In recent years, the reverse osmosis type water purifier has been widely used to allow the tap water to be purified while moving through a plurality of filter members such as a plurality of pretreatment filtration filters, a pretreatment activated carbon filter, a reverse osmosis membrane filter and a post treatment activated carbon filter.

In recent years, an ion water purifier has been proposed in which the water filtered by a water purifier is electrolyzed again using an electrolytic cell to use alkaline water as drinking water and acidic water as beauty water.

The technology described above refers to the background of the technical field to which the present invention belongs, and does not mean the prior art.

In the cold ion water purifier, cold water or cold ion water is instantaneously cooled while the purified drinking water passes through the cold water tank along the cold water pipe.

At this time, the cooling process in the cold water tank is installed in the cold water tank filled with the cooling water, the evaporator of the cooler is installed to cool the cooling water so that the purified drinking water is cooled while circulating inside the cold water tank along the cold water pipe to obtain cold water.

However, if the user turns off the cold water switch to not use cold or cold water, the cooling water is contaminated in the cold water tank while the cooler is not operating. If the cold water switch is turned on after using the water, supply the coolant.

An object of the present invention is to provide a method for controlling the cooling water supply of a cold ion water purifier, in which a cold water tank is operated by stirring the cold water switch when the cold water switch is turned on, thereby smashing the cold water tank and then resupplying water. .

Cooling water supply control method of the cold ion water purifier according to an aspect of the present invention comprises the steps of determining the operating state of the cold water switch; When the cold water switch is turned on, operating the cold water tank valve for a predetermined time to supply the coolant firstly; Operating the cold water tank drain valve after the first water supply and draining the valve for a set time; And draining the coolant and then operating the cold water valve to supply water to the coolant secondly.

In the present invention, the cold water switch is characterized in that the on-off switch of the compressor.

The present invention is characterized in that the stirrer is operated together in the first water supply step.

In the present invention, the setting time is characterized in that 3 to 4 minutes.

In the present invention, when the cold water switch is turned off by operating the cold water tank drain valve is characterized in that it further comprises the step of draining the cooling water.

The invention is characterized by operating the stirrer together in the draining step.

Cooling water supply control method of the cold ion water purifier according to another aspect of the present invention comprises the steps of determining the operating state of the cold water switch; And operating the cold water tank drain valve when the cold water switch is turned off.

When the cold water switch is turned on in the present invention, the step of operating the cold water tank valve is characterized in that it further comprises the step of supplying the cooling water.

As described above, the present invention turns off the cold water switch in the cold ion water purifier and does not use cold water. Cold water tank can be managed cleanly and sanitarily.

1 is a block diagram showing the water flow of the cold ion water purifier according to an embodiment of the present invention.
Figure 2 is a block diagram showing a cooling water supply control device of the cold ion water purifier according to an embodiment of the present invention.
3 is a flowchart illustrating a cooling water supply control method of a cold ion water purifier according to an embodiment of the present invention.

Hereinafter, an embodiment of a cooling water supply control method of a cold ion water purifier according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a block diagram showing the water flow of the cold ion water purifier according to an embodiment of the present invention.

As shown in FIG. 1, the cold ion water purifier according to the exemplary embodiment of the present invention operates the water supply valve 10 to drink the purified water, and operates the water supply valve 10 to filter the raw water by the filter unit 12. After purification, the cold water tank valve 14 and the cold water valve 16 are discharged from the purified water valve 18 to the purified water extraction cock 20.

In addition, if you want to drink cold water is passed through the cold water tank 28 in the cold water valve 16 and is discharged to the purified water outlet cock 20 through the purified water valve 18.

On the other hand, when the ionized water extraction cock 26 is operated to drink the ionized water, the water supply valve 10 is operated to purify the raw water by the filter unit 12, and then the cold water tank valve 14, the cold water valve 16, and the purified water valve. After passing through the electrolytic cell 22, the electrolytic cell 22 is electrolyzed in the electrolyzer 22, and then discharged through the ionized water valve 24 to the ionized water extraction cock 26.

In addition, in the case of drinking cold ionized water, the cold water valve 16 passes through the cold water tank 28, is electrolyzed in the electrolytic cell 22 via the purified water valve 18, and the ionized water is discharged through the ionized water valve 24. It is discharged to the cock 26.

At this time, in order to replenish the cooling water to the cold water tank 28, if the raw water is supplied through the water supply valve 10 is purified in the filter unit 12 and then replenished to the cold water tank 28 in the cold water tank valve (14).

Therefore, when the cooler 32 operates, the cooling water is cooled by the evaporator 33 submerged in the cooling water, and the purified water passes through the cold water pipe 17 circulating the cold water tank 28 to supply the cold water.

In addition, the cold water tank 28 is provided with a stirrer 34 for stirring the cooling water by rotating the fan 35 so as to make the temperature of the cooling water uniform.

On the other hand, in order to drain the cooling water accumulated in the cold water tank 28, the cold water tank drain valve 30 can be operated to drain the cooling water through the cold water tank drain pipe 31, and when the cold water tank 28 overflows Edo is drained through the cold water tank drain pipe (31).

In addition, the acidic ionized water electrolyzed in the electrolytic cell 22 is drained through the drainage pipe 23 and when drained in a non-water discharged state is drained to the drainage pipe 23 through the ionized water valve 24.

2 is a block diagram showing a cooling water supply device of a cold ion water purifier according to an embodiment of the present invention.

As shown in FIG. 2, the cooling water supply device of the cold ion water purifier includes a cold water switch 40, a water level sensor 60, a controller 50, a cooler 32, a cold water valve 14, and a cold water tank drain valve 30. And an agitator 34.

The cold water switch 40 turns the compressor 32 on and off when the chiller 32 is turned on and off as a switch for selecting an operation. At this time, the cold water switch 40 may be a compressor switch.

The cooler 32 circulates the refrigerant by a compressor to cool the cooling water through the evaporator 33 in the cold water tank 28 by heat exchange by a refrigeration cycle.

The water level sensor 60 measures the level of the cold water tank and outputs it to the controller 50.

The cold water tank valve 14 supplies the coolant to the cold water tank 28.

The cold water tank drain valve 30 drains the cooling water accumulated in the cold water tank 28 to the cold water tank drain pipe 31.

The stirrer 34 agitates the cooling water in the cold water tank 28 to remove sediment or attached contaminants that have sunk in the cold water tank 28.

The controller 50 controls the cold water tank valve 14 and the cold water tank drain valve 30 according to the operation state of the cold water switch 40 and the water level sensor 60 to supply or drain the coolant as well as the cooler 32. And agitator 34.

The water supply control method through the water supply device of the cold ion water purifier made as described above will be described with reference to a flowchart for explaining a cooling water supply control method of the cold ion water purifier according to the embodiment of the present invention shown in FIG. 3.

First, the operating state of the cold water switch 40 of the cold ion water purifier is determined (S10).

In this case, when the cold water switch 40 is turned on, the cold water tank 14 is operated for a predetermined time to proceed with the first water supply of the cooling water (S12) (S16).

The cold water tank valve 14 may be operated for a set time of 3 to 4 minutes for the primary water supply, and the cold water tank valve 14 may be operated until the water level set by the water level sensor 60 is reached. can do.

While proceeding with the primary water supply can proceed with the water supply while operating the stirrer 34 together to remove sediments or attached contaminants that have sunk in the cold water tank (28) (S14).

When the primary water supply proceeds as described above, the cold water tank valve 14 is stopped and the cold water tank drain valve 30 is operated to drain the water (S18) (S20).

At this time, the stirrer 34 may be continuously operated to allow the pollutants to be smoothly drained.

After operating the cold water tank drain valve 30 for a set time of 3 to 4 minutes to drain and stop the operation of the cold water tank drain valve 30 (S22) (S24). At this time, when the stirrer 34 is in operation, the operation of the stirrer 34 is also stopped (S26).

Thereafter, by operating the cold water valve 14 for the second water supply, the water supply proceeds until the water level is measured through the water level sensor 60, and then stops the operation of the cold water valve 14 (S28). (S32).

On the other hand, when the cold water switch 40 is off to operate the cold water tank drain valve 30 to drain the cooling water (S34). At this time, the stirrer 34 is operated together so that pollutants can be smoothly discharged.

In addition, in accordance with another aspect of the present invention by determining the operating state of the cold water switch in the case of the cold water switch 40 is turned off by operating the cold water tank drain valve 30, when the cold water switch 40 is turned on cold water tank valve Cooling water supply of the cold ion water purifier may be controlled to operate (14) to supply the cooling water.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. Will understand. Therefore, the technical protection scope of the present invention will be defined by the claims below.

10: water supply valve 12: filter part
14: cold water valve 16: cold water valve
17: cold water pipe 18: water purification valve
20: water purification cock 22: electrolytic cell
23: drain pipe 24: ionized water valve
26: ion export water cock 28: cold water tank
30: cold water tank drain valve 31: cold water tank drain pipe
32: cooler 33: evaporator
34: stirrer 35: fan
40: cold water switch 50: control unit
60: water level sensor

Claims (8)

Determining an operating state of the cold water switch;
When the cold water switch is turned on, operating the cold water tank valve for a set time to supply the coolant firstly;
Operating the cold water tank drain valve for a set time after draining the primary water; And
And draining the cooling water to operate the cold water tank valve to supply water to the coolant secondaryly. 2.
The method of claim 1, wherein the cold water switch is an on / off switch of a compressor.
The method of claim 1, wherein the stirrer is operated together in the first water supply step.
The method of claim 1, wherein the set time is 3 to 4 minutes.
The method of claim 1, further comprising operating the cold water tank drain valve to drain the cooling water when the cold water switch is turned off.
The method of claim 1 or 5, wherein the stirrer is operated together in the draining step.
Determining an operating state of the cold water switch; And
And operating the cold water tank drain valve to drain the cold water switch when the cold water switch is turned off.
The method of claim 7, further comprising the step of operating the cold water tank valve to supply the coolant when the cold water switch is turned on.

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