KR100613362B1 - Washing device of Ion water purifier and Control method the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ion water purifier, and more particularly, to a washing apparatus for an ion water purifier and a control method thereof having a simple structure and increasing a washing effect by installing a drain valve at a drain.

Ion Purifier, Cleaning, Drain Valve

Description

Washing device of ion water purifier and control method the same}

1 is a block diagram showing the structure of a conventional ion water purifier,

2 is a block diagram showing an ion water purifier cleaning device according to an embodiment of the present invention,

Figure 3 is a flow chart showing the procedure of the ion water purifier control method of the present invention.

<Description of the symbols for the main parts of the drawings>

50: electrolyzer, 52: drain,

56: alkali export outlet, 70: drain valve,

100: standby mode step; 110: production judgment stage,

120: alkaline water production step, 124: electrolysis step,

130: cleaning step, 132: cleaning judgment step,

136: washing step, 138: drain step.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ion water purifier, and more particularly, to a washing apparatus for an ion water purifier and a control method thereof having a simple structure and increasing a washing effect by installing a drain valve at a drain.

1 is a block diagram showing the structure of a conventional ion water purifier.

As shown in FIG. 1, a conventional ion water purifier includes a raw water feed valve 10, a filter unit 20, a purified water feed valve 30, an electrolytic cell 50, a flexible pipe 60, and the like.

The feed water supply valve 10 is a valve for controlling the amount of raw water, the filter unit 20 is a device for filtering the raw water, the purified water supply valve 30 is a valve for controlling the amount of filtered purified water. .

In addition, the electrolytic cell 50 is a device for electrolyzing the filtered purified water and ionizing the alkaline water and the acidic water, and the flexible pipe 60 is a flexible pipe for easy use by the user.

In general, the simple electrolyzer 50 has one inlet through which purified water flows in and an alkali export outlet 56 through which alkaline water is discharged, and a drain hole 52 for discharging residual water of the electrolytic cell 50 after use with acidic water. Is made of.

In order to make an ionizer, water flows through the electrolytic cell 50, and the middle is separated by a diaphragm, and an anode (+) and a cathode (-) are applied to electrodes of both rooms of the separated diaphragm to separate alkaline and acidic water. Is done.

At this time, ions are adsorbed on the electrode plate of the room which becomes the alkaline water by applying the cathode, and scale is generated to remove the scale.

This washing operation is performed by applying a reverse voltage to the electrolytic cell 50 (see Japanese Unexamined Patent Publication No. 2-7675). Here, washing is performed first before generating alkaline water, and the acidic water is discarded. For example, a method of automatically changing the flow path and the electrode by a separate system is used.

However, the cleaning systems of the conventional ion water purifier do not completely remove the scale generated in the electrode plate of the electrolytic cell because the drainage port of the electrolytic cell is opened and the cleaning operation is performed while the electrolytic cell is not filled with water. There is a problem that the cleaning effect is weakened, and there is a problem that the structure is complicated and the control is complicated even when the electrolytic cell is filled with water.

The present invention has been made in view of the above-described problems, and an object thereof is to provide a washing apparatus and a control method of the ion water purifier, in which a drain valve is provided in the drain port of the electrolytic cell, and the structure thereof is simple and the cleaning effect is increased.

In order to achieve the above object, the cleaning device of the ion water purifier of the present invention includes an electrolytic cell having an alkaline water outlet for draining alkaline water and a drain hole for draining acidic water and drainage water; A drain valve installed at the drain; It includes a control device for controlling the opening and closing of the drain valve according to whether the electrolytic cell is cleaned.

In this case, a water outlet valve may be further installed in the alkali export outlet, in order to prevent the washing water from being discharged into the alkali export outlet.

And, the ion water purifier control method of the present invention comprises a standby mode step; Production judgment step of determining the production of alkaline water; Alkaline water production step of producing alkaline water; In the ion water purifier control method comprising a washing step of cleaning an electrolytic cell, the alkaline water production step comprises an electrolytic step of electrolyzing the filtered purified water with the drain opening open, wherein the washing step is, A cleaning determination step of determining whether cleaning is necessary; A washing step of cleaning the electrolytic cell by applying a reverse voltage to the electrolytic cell in a state where the drain hole is closed when the electrolytic cell is required to be cleaned; And a drainage step of discharging the washing water by opening the drainage port after the washing is completed.

The washing step moves from the production determining step to the washing step when the production of alkaline water is not required in the production determining step.

And, if the outlet valve is further installed in the alkali outlet, the electrolytic step is made in the state of opening the alkali outlet, the washing step is to be performed in a state of closing the alkali outlet.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

The configuration overlapping with the prior art will be briefly described, and will be described in detail with reference to the important configuration of the present invention.

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

As shown in FIG. 2, the present embodiment includes an electrolytic cell 50, a drain valve 70, and a control device (not shown).

The electrolytic cell 50 has a one-caliber export outlet 56 and a drain port 52, the drain valve 70 is installed in the drain port 52, the control device according to whether or not cleaning the electrolytic cell The opening and closing of the valve 70 is controlled.

The drain 52 serves to drain the acidic water and the washing water.

The drain valve 70 is generally preferably used a solenoid valve.

Figure 3 is a flow chart showing the procedure of the ion water purifier control method of the present invention.

As shown in FIG. 3, the ion water purifier control method includes a standby mode step 100; Production decision step 110, the alkaline water production step 120, the washing step 130 is made.

The standby mode step 100 is a step in which the user waits until the user presses an operation button, etc. separately installed in the water purifier.

The production determination step 110 is a step of determining whether or not the production of alkaline water, generally when the user needs the alkaline water to determine whether or not by pressing the operation button, etc. separately installed in the water purifier.

In this case, when the production determination step 110 requires the production of alkaline water, the flow moves to the alkaline water production step 120, and when the production of the alkaline water is not required, the flow moves to the washing step 130. .

In addition, the alkaline water production step 120 is a step of producing alkaline water according to the case where it is determined that the alkaline water production is required in the production determination step 110, and the washing step 130 is a production determination step 110. ) Is a step of cleaning the electrolytic cell 50 when it is determined that the production of alkaline water is not required.

The alkaline water production step 120 includes an electrolysis step 124 for electrolyzing the filtered purified water in a state in which the drain port 52 is opened, that is, the state in which the drain valve 70 is opened.

At this time, the electrolytic method uses the same method as the prior art, and the detailed description thereof is omitted below, and the acidic water produced in the electrolytic step 124 is discharged to the drain port 52 through the drain valve 70. do.

In addition, the cleaning step 130 is composed of a cleaning determination step 132, a cleaning performance step 136, a drainage step 138.

The cleaning determination step 132 is a step of determining whether the electrolytic cell 50 needs to be cleaned, which may be cleaned according to a predetermined time interval, or when the user does not use it. If the cumulative amount of is more than a certain amount, it can be cleaned, and the standard can be changed if necessary.

In the washing step 136, when the electrolytic cell 50 needs to be cleaned, a scale formed on the electrode plate is removed by applying a reverse voltage to the electrode plate of the electrolytic cell 50 in a state where the drain port 52 is closed. It's a step.

In addition, the draining step 138 is a step of discharging the washing water by opening the drain 52 and the drain valve 70 after the washing step 136 is completed.

In this way, by closing the drain port 52 using the drain valve 70 during the cleaning operation, water may be filled in the electrolytic cell 50 without being drained, thereby forming a scale formed on the electrode plate of the electrolytic cell 50. Can be removed more completely.

The alkaline water production step 120 and the cleaning step 130 is returned to the standby mode step 100 after completing each step.

In addition, when it is determined in the cleaning determination step 132 that cleaning is not necessary, the process returns to the standby mode step 100.

And, if the outlet valve is further installed in the alkali export port 56, the electrolytic step 124 is made in the state that the alkali export port 56 is opened, the washing step 136 is the alkali export port 56 ) Is made in a closed state, it is possible to prevent the washing water from the cleaning of the electrolytic cell 50 is discharged to the alkali export port (56).

If the user wants to use filtered water instead of alkaline water, there is no need for alkaline water in the production determination step 110, so the user moves to the cleaning step 130 and the cleaning is not necessary. What is necessary is just to extract water directly through the alkali export outlet 56.

The present invention is not limited to the above-described embodiment, the washing apparatus and the control method of the ion water purifier can be carried out in a variety of modifications within the scope of the technical idea of the present invention.

According to the washing apparatus and the control method of the ion water purifier of the present invention as described above has the following effects.

First, when the alkaline water is to be produced, it is possible to produce alkaline water like the conventional ion water purifier by opening the drain valve installed in the drain, and when the alkali is not produced, it is necessary to determine whether to perform the washing operation and then to perform the washing operation. In this case, the drain valve is closed and the washing operation is performed, thereby preventing the water in the electrolytic cell from being discharged by the drain hole or the like so that a reverse voltage is applied to the electrode plate existing in the electrolytic cell in the state where the water is filled in the electrolytic cell. By applying this, there is an effect of cleaning the scale generated on the electrode plate with better efficiency.

Second, by using only one drain valve in the drain port can not only obtain a high cleaning effect, but also the structure is simple, can save the cost, easy to control and easy to control.

Third, by performing the cleaning operation when not using the ion water purifier can reduce the inconvenience of the user, and also has the effect of preventing the user from drinking washing water, that is, acidic water.

Fourth, it is possible to prevent the discharge of the washing water to the alkaline export outlet by the installation by further providing a discharge valve in the alkaline export outlet.

Claims (4)

delete delete Standby mode step; Production judgment step of determining the production of alkaline water; Alkaline water production step of producing alkaline water; In the ion water purifier control method comprising a washing step of cleaning the electrolytic cell, The alkaline water production step is made, including an electrolytic step of electrolyzing the filtered purified water in the open drainage, The cleaning step may include a cleaning determination step of determining whether the electrolytic cell needs cleaning; A washing step of cleaning the electrolytic cell by applying a reverse voltage to the electrolytic cell in a state where the drain hole is closed when the electrolytic cell is required to be cleaned; And a drainage step of discharging the washing water by opening the drainage port after the washing is completed. The method of claim 3, wherein The electrolytic step is made in the state of opening the alkali export outlet, The washing operation step is the ion water purifier control method, characterized in that made in a state in which the alkali export outlet closed.

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