KR101395863B1 - Ion warter an system - Google Patents

Abstract

The present invention relates to an ionized water producing system, in which, when alkaline ionized water is not taken out for a long period of time, it remains in an alkaline ion electrolysis chamber or an acidic ion electrolysis chamber according to the elapse of a set time to discharge a predetermined amount of alkaline ionized water, Or the cold alkaline ionized water is taken out by the cold water newly introduced into the acidic ion electrolytic chamber so that the cold alkaline ionized water of the set temperature is always taken out as well as the alkaline ionized water. The present invention configured for this purpose comprises a water purifier for filtering the incoming raw water, a cooler for cooling the filtered general water to a predetermined temperature, a bypass for bypassing the normal water filtered by the water filter from the pre- A cooling water cooled by a pipe or a cooler, or an ordinary water purified by a water filter into an electrolytic cell to ionize the water into alkaline ionized water and acidic ionized water through electrolysis, A flow rate control valve for supplying the regular purified water filtered by the electrolytic bath to the electrolytic cell of the electrolytic cell at a predetermined ratio in a predetermined ratio, a power supply unit for supplying power to the electrode plate provided in the electrolytic cell, and a control unit for controlling the system as a whole Wherein the electrolytic cell is an alkaline ion electrolysis chamber or an acid Ion electrolyte chamber with the lapse of the set time through the control of the control does not take out the alkaline ionized water for a long time inside made of alkaline ionized water discharge means for the discharge to occur in the alkaline water.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to an ionized water generating system capable of generating alkaline ionized water filtered through a water filter and cooled through a cooler to a predetermined temperature through an electrolytic chamber. More specifically, The alkaline ionized water is retained in the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber according to the elapse of the set time and the alkaline ionized water is discharged by the predetermined amount each time the alkaline ionized water is discharged by the cold water newly introduced into the alkaline ion electrolysis chamber or the acid ion electrolysis chamber Of course, the present invention relates to an ionized water generation system in which cold alkaline ionized water at a predetermined temperature is always taken out.

In general, environmental pollution due to various pollution has become the most important social problem, and pollution of natural water such as river water, seawater and hot spring water among various environmental pollution such as air pollution, land pollution and water pollution, Which is a serious problem.

Therefore, in a public place such as a home, a school, a workplace, or a government office without drinking tap water directly, a cold water purifier is installed so that cold water and hot water can be selected and drunk according to the taste of a person who wants to drink water.

In modern medicine, as the cause of various adult diseases such as hypertension, diabetes and heart disease is revealed by the acidification of the constitution due to excessive intake of acid foods, in order to improve the acidic constitution to the alkaline constitution, Water is generated by alkaline ionized water to be consumed.

In recent years, it has been found that acidic ionized water has an excellent effect in cleaning not only skin but also acidic ionized water. However, in general, in the process of ionizing water, alkaline ionized water and acidic ionized water are essential 70: 30, and the alkaline ionized water is consumed while the generated acidic ionized water is discarded.

As described above, the ionized alkaline ionized water is extracted by taking cool alkaline ionized water and alkaline ionized water at a cooler temperature according to the taste of the drinker. In the case of the cool alkaline water cooled, the cooling method is precooled and ionized, Cooling method for cooling the alkaline ionized water is adopted.

In the case of the above-mentioned precooling system, the water is connected to the alkaline ion electrolysis chamber so as to selectively supply the purified water passing through the cooler and the purified water, and the water of the hot water is connected to the acid ion electrolytic chamber, When the ionized water is selected, the purified water is supplied to the alkaline ion electrolysis chamber through the cooler, the cold alkaline ionized water ionized in the alkaline ion electrolysis chamber is supplied to the acidic ion electrolysis chamber and is ionized in the acidic ion electrolysis chamber The acidic ionized water is discarded or used as wash water.

However, in the case of the above-mentioned case, when alkaline ionized water in the alkaline ion electrolytic chamber remained in the electrolytic bath at the time of taking out the cooled alkaline ionized water after a certain period of time without continuously using the ion exchanger, The alkaline ionized water near to the room temperature is brought close to the room temperature by the influence of the process of staying and the ambient temperature around the electrolytic tank and the alkaline ionized water near to room temperature that has stayed in the alkaline ion electrolysis chamber is taken out at the time of the initial taking out of the cooled alkaline ionized water, The cooled alkaline ionized water can not be obtained and the initial alkaline ionized water is discarded, resulting in the waste of the alkaline ionized water.

In the case of the post-cooling method as in the latter case, purified water is introduced into the alkaline ion electrolysis chamber and the acid ion electrolysis chamber at the same time, and electrolyzed by the electrolytic bath. The acidic ionized water in the acidic electrolytic chamber is then discarded. The alkaline ionized water can be cooled and tasted, and the initial alkaline ionized water can be tasted without discarding the initial alkaline ionized water. However, when the electrolyzed alkaline ionized water is cooled by the freezer, the concentration of the alkaline ion decreases, The OPR concentration is lowered and the function of alkaline ionized water can not be exerted.

Disclosure of the Invention The present invention has been conceived to solve all the problems of the prior art, and it is an object of the present invention to provide a method for removing alkaline ionized water by a predetermined amount when remained in an alkaline ionization chamber or an acidic ionization chamber, So that cold alkaline ionized water can be taken out from the alkaline ionized electrolytic chamber or the acidic electrolytic chamber by cold water newly introduced into the alkaline ionized electrolytic chamber or the acidic ionized electrolytic chamber so that the alkaline ionized water can be taken out at a predetermined temperature. .

Another object of the present invention is to provide a method for producing alkaline ionized water which is cooled immediately upon drinking of cool cold alkaline ionized water so that the alkali concentration and OPR concentration are not lowered to maximize the function of the alkaline ionized water. There is a purpose.

The present invention configured to achieve the above-described object is as follows. That is, the ionized water generating system according to the present invention includes a water filter for filtering various kinds of foreign substances contained in the raw water to purify the purified water into general purified water, a cooler for filtering the filtered purified water through the water filter, A bypass pipe for bypassing a general purified water filtered by a water filter from a pre-cooler to a subsequent flow channel, a cooling water cooled by a cooler, or a general water filtered by a water filter is introduced into an electrolysis chamber to perform electrolysis An electrolytic bath which is ionized with alkaline ionized water and acidic ionized water, a cooling water cooled by a cooler, or a flow control valve which supplies a regular purified water filtered by a water filter to the electrolytic cell of the electrolytic cell at a constant rate, (+) And minus (-) electrode plates on the positive (+) and negative And a controller for controlling the overall system, wherein when the alkaline ionized water in the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber is not taken out for a long period of time, And an alkaline ionized water discharging means for discharging alkaline ionized water as the set time elapses.

The alkaline ionized water discharge unit may include an alkaline ionized water discharge pipe extending from the alkaline ionized electrolytic chamber and the acidic electrolytic chamber so as to extend to a predetermined length and discharging alkaline ionized water; And an alkaline ionized water discharge pipe, wherein the control unit controls the opening and closing of the electromagnetic valve so that the alkaline ionized water is discharged.

In addition, in the configuration according to the present invention, when the alkaline ionized water in the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber is not taken out for a long time, the solenoid valve is operated through the control unit to take out the alkaline ionized water, The cooling water cooled by the cooler can be introduced into the alkaline ion electrolytic chamber or the acidic ion electrolytic chamber of the electrolytic cell while the acidic ion electrolytic chamber or the alkaline ion electrolytic chamber of the electrolytic bath is filled with the inflow Can be achieved.

On the other hand, the alkaline ionized water in the alkaline ion electrolytic chamber or the acidic ion electrolytic chamber described above discharges 50% of the alkaline ionized water after 3 to 5 minutes and discharges the remaining alkaline ionized water after 8 to 10 minutes have.

In addition, 30% of the alkaline ionized water was discharged within 3 minutes after the alkaline ionized water in the alkaline ion electrolytic chamber or the acidic ion electrolysis chamber was discharged, and 30% of the ionized water was discharged after 6 minutes had elapsed. So that the ionized water can be discharged.

According to the technique of the present invention, when the alkaline ionized water is not taken out for a long period of time, the alkaline ionized water is retained in the alkaline ion electrolytic chamber or the acidic electrolytic chamber according to the set time, The cold alkaline ionized water can be taken out of the alkaline ionized water at the initial temperature as well as the always set temperature by the cold water newly introduced.

Another advantage of the present invention is that the alkaline ionized water immediately cooled upon cooling of the cooled cold alkaline ionized water is produced, so that the alkali concentration and the OPR concentration are not lowered, so that the alkaline ionized water can be fully utilized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an ion generating system according to the present invention. FIG.
2 is an explanatory view for explaining a flow control valve for controlling the supply of purified water to the ionized water generating system according to the present invention;

Hereinafter, an ion generating system according to a preferred embodiment of the present invention will be described in detail.

2 is a view for explaining a flow control valve for controlling the supply of purified water to the ion generating system according to the present invention.

As shown in FIG. 1, in the ionic water producing system 100 according to the present invention, when the extraction of alkaline ionized water is not performed for a long time in a technique of ionizing a cooling water or a general water through electrolysis to produce alkaline ionized water and acidic ionized water The alkaline ionized water at room temperature is discharged to the outside as the predetermined time elapses so that a new cooling water is introduced into the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber so that the cold alkaline ionized water at a predetermined temperature is always taken out.

The structure of the ionized water generating system 100 according to the present invention will now be described with reference to the accompanying drawings. A water filter 110 for filtering various kinds of foreign substances contained in the incoming raw water and purifying the filtered water into general water, A cooler 120 for cooling the filtered general purified water to a predetermined temperature while passing the coolant filtered by the coolant circulation pipe 110 to a flow passage through the coolant 120, An electrolytic bath (not shown) for introducing the cooling water cooled by the pass pipe 130, the cooler 120, or the general purified water filtered by the water filter 110 into the inside of the electrolytic cell and ionizing the electrolytic water into alkaline ionized water and acidic ionized water When the cooling water cooled by the cooler 120 or the general purified water filtered by the water filter 110 is supplied to the electrolysis chambers 142 and 144 of the electrolytic bath 140, (+) Power source and a negative (-) power source are supplied to each of the positive (+) electrode plate 142a and the negative (-) electrode plate 144a provided in the electrolytic cell, A polarity converter 162 for converting the polarity of the power supplied to the supply unit 160, the negative (-) electrode plate 144a and the positive (+) electrode plate 142a, and a control unit 170 When the alkaline ionized water in the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber 142 is not taken out for a long time in the constitution of the ionized water generating system 100 having the constitution, And an alkaline ionized water discharging means 180 for discharging alkaline ionized water.

In the meantime, when the polarity of the power supplied to the negative (-) electrode plate 144a and the positive (+) electrode plate 142a is changed through the polarity converter 162, A flow path switching valve 190 for switching the flow path of the ionized water outlet channel 200 and the acidic ionized water outlet channel 202 is formed. Since the polarity is changed when the polarity of the power supplied to the negative (-) electrode plate 144a and the positive (+) electrode plate 142a is changed through the polarity converter 162, And the acidic ionized water is discharged to the alkaline ionized water outlet 210, thereby causing harm to the human body.

In other words, in consideration of the above-described problem, in the ionized water generation system of the present invention, the flow path switching valve 190 is provided on the way of the alkaline ionized water outlet channel 200 and the acidic ionized water outlet channel 202, When the polarities of the electrode plates 142a and 144a are changed, the alkaline ionized water outlet 210 is connected to the acidic ionized water outlet 202 and the acidic ionized water outlet 212 is connected to the alkaline ionized water outlet 200, So that the user can always drink alkaline ionized water irrespective of the polarity change of the electrodes 142a and 144a. Here, the flow path switching valve 190 may be embodied as an electric actuator, for example, a solenoid valve, so as to be able to be controlled by the controller 170.

The polarity converter 162 constituting the ionic water generating system 100 according to the present invention is configured to periodically connect the positive ion plate 142 and the positive ion plate 142 provided in the acidic ion electrolytic chamber 142 and the alkaline ion electrolytic chamber 144, ) And the negative (-) electrode plate 144a so that acidic ionized water or alkaline ionized water is produced in the acidic ion electrolysis chamber 142 and alkaline ionized water or acidic ionized water is also generated in the alkaline ionized electrolytic chamber 144 do. At this time, when the polarities of the positive (+) electrode plate 142 and the negative (-) electrode plate 144a are changed, no scale is generated.

As described above, the ion generating system 100 according to the present invention operates the polarity converting apparatus 162 through the control unit 170 according to a predetermined time period, and supplies the positive (+) electrode plate 142 and the negative The polarity of the plate 144a is changed so that the alkaline ionized water is generated in the acidic ion electrolysis chamber 142 and the acidic ionized water is generated in the alkaline ionized electrolytic chamber 144 to prevent the scale of chloride or the like from being generated.

When the alkaline ionized water discharging means 180 does not take out the ionized alkaline ionized water through the electrolytic reaction in the electrolytic bath 140 for a long period of time in the constitution of the ionized water producing system 100 as described above, The ionized alkaline ionized water is discharged into the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber 142 of the electrolytic bath 140 through the alkaline ionized water discharging means 180.

On the other hand, when the ionized alkaline ionized water is not taken out for a long period of time as described above, the temperature of the ionized cooled alkaline ionized water in the alkaline ion electrolytic chamber 144 becomes room temperature over time, But it becomes generalized ion water.

Therefore, according to the present invention, when the alkaline ionized water is not taken out for a long period of time as described above, the alkaline ionized water of room temperature is discharged by a predetermined amount over a predetermined time, and the cooling water flows into the electrolytic bath 140 to be ionized So that you can always drink cold water.

The alkaline ionized water discharging means 180 is extended from the alkaline ion electrolytic chamber 144 and the acidic ion electrolytic chamber 142 so as to be extended to a predetermined length in the constitution of the ionized water generating system 100 according to the present invention as described above And an alkaline ionized water discharge pipe 182 for discharging alkaline ionized water and an alkaline ionized water discharge pipe 182 for discharging alkaline ionized water. The control unit 170 controls the solenoid valve 184 ). At this time, the set time is programmed on the control unit 170 so that the alkaline ionized water discharge pipe 182 is opened by operating the solenoid valve 184 over a set time from when the alkaline ionized water extraction reaction does not occur, So that the ionized alkaline ionized water can be discharged to the ion electrolytic chamber 144 or the acidic ion electrolysis chamber.

Of course, when the alkaline ionized water is discharged from the alkaline ion electrolytic chamber 144 or the acidic electrolytic chamber 142 through the operation of the alkaline ionized water discharging means 180 as described above, the alkaline ionized water is discharged at once It is better to discharge them sequentially. That is, it is possible to discharge 50% of the first and second orders, or 30%, 30% and 40% of the first, second and third orders.

In addition, when the alkaline ionized water in the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber is not taken out for a long time, the technique according to the present invention activates the solenoid valve 184 through the controller 170 to take out the alkaline ionized water The cooling water cooled by the cooler 120 can be introduced into the alkaline ion electrolytic chamber 144 of the electrolytic bath 140 via the flow control valve 150 while the acidic The general purified water filtered by the water filter 110 can be introduced into the ion electrolytic chamber 142.

On the other hand, the polarities of the negative (-) electrode plate 144a and the positive (+) electrode plate 142a by the polarity conversion device 162 as described above are periodically changed so that the alkaline ionized water The alkaline ionized water discharge pipe 182 of the alkaline ionized water discharging means 180 is connected to the alkaline ionized electrolytic chamber 142 and the alkaline ionized electrolytic chamber 144 to generate acidic ionized water in the alkaline ionized electrolytic chamber 144, And the alkaline ionized water is generated in the alkaline ion electrolysis chamber 144 by the electromagnetic valve 184, the alkaline ionized water discharge pipe 182 of the alkaline ion electrolysis chamber 144 is opened and the acidic ion electrolysis chamber 142 is opened, The alkaline ionized water discharge pipe 182 of the acidic ion electrolytic chamber 142 is opened to discharge the alkaline ionized water at room temperature over time.

The cooling water cooled by the cooler 120 can be introduced into the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber 142 of the electrolytic bath 140 as described above, When the purified water filtered by the water filter 110 can be introduced into the ionic electrolytic chamber 142 or the alkaline ionic electrolytic chamber 144, the alkaline ionic electrolytic chamber 144 and the acidic ionic electrolytic chamber 142 or The supply amount of the common water supplied to the acidic ion electrolytic chamber 142 and the alkaline ion electrolytic chamber 144 is 60 to 70:30 to 40 volume ratio.

On the other hand, the alkaline ionized water in the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber as described above discharges 50% of the alkaline ionized water after 3 to 5 minutes elapses, and discharges the remaining alkaline ionized water after 8 to 10 minutes elapsed The alkaline ionized water in the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber 142 may contain 30% of the alkaline ionized water after 3 minutes, 30% of the ionized water after 6 minutes, And the remaining alkaline ionized water can be discharged at the elapsed time.

In the process of starting the ionic water or the cold water by the ionic water producing system 100 according to the present invention constructed as described above, when the raw water is introduced, the raw water is filtered through the water filter 110 to be purified . The general purified water filtered by the water filter 110 flows into the cooler 120 through the flow pipe, is cooled to a predetermined temperature by the cooler 120, cooled and purified, and then flows into the flow control valve 150. At this time, the cooler 120 is constituted by a thermoelectric element which is an N-P semiconductor element and instantaneously cooled.

As described above, the general purified water filtered by the water filter 110 passes through the bypass pipe 130, not through the cooler 120, from the flow pipe before the cooler 120 to the flow pipe after the cooler 120, And flowed into the flow control valve 150 in a normal purified state.

As described above, the cooling water cooled by the cooler 120 and the common water can be introduced into the flow control valve 150 through the bypass pipe 130 can be generally used for drinking cold water and general water So that the user can respond to the request of the user. For example, in the case of aged elderly people, it is necessary to be able to supply ordinary water, because it is hot water or general water rather than cold water. Therefore, a bypass pipe 130, which can supply the general water without cooling, is separately installed.

Next, when there is a request for cooling alkaline ionized water in a state where the cooling water cooled by the cooler 120 and the general water filtered by the water filter 110 flow into the flow control valve 150 as described above The flow control valve 150 supplies the cooling water cooled by the cooler 120 to the alkaline ion electrolytic bath 144 where the alkaline ionized water of the electrolytic bath 140 is to be produced and the electrolytic chamber 142 where the acidic ionized water is to be generated. The supply amount of the cooling water supplied to the electrolytic cell 142 in which the alkaline ionized water is to be produced in the electrolytic bath 140 and the alkaline ionized electrolytic bath 144 in which the acidic ionized water is to be produced is supplied at a ratio of 60 to 70:30 to 40 volume ratio .

Accordingly, in the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber 142 of the electrolytic bath 140, the cooling water of 60 to 70% by weight and the acidic ion electrolysis chamber 142 ) Or a cooling constant of 30 to 40% by weight is supplied to the alkaline ion electrolysis chamber 144 and ionization is performed according to the electrolysis reaction, the production rate of the cooled alkaline ionized water and the cooled acidic ionized water is also 60: 70: 30 to 40 Respectively.

When there is a request for the alkaline ionized water at a normal room temperature, the flow control valve 150 is filtered by the water filter 110 to convert the general purified water bypassed through the bypass pipe 130 to the electrolytic water And is supplied to the alkaline ion electrolysis chamber 142 where the alkaline ionized water will be produced and the acidic ion electrolysis chamber 144 where the acidic ionized water will be produced. The supply amount of the common water supplied to the electrolytic chamber 144 in which the alkaline ionized water is to be produced in the electrolytic bath 140 and the electrolytic chamber 144 in which the acidic ionized water is to be produced is 60 to 70:30 to 40 volume ratio .

Therefore, as described above, in the alkaline ion electrolysis chamber 144 or the acidic ion electrolysis chamber 142 in which the alkaline ionized water of the electrolytic bath 140 is to be produced, a general constant of 60 to 70% by weight and an acidic electrolytic chamber 142 ) Or a general constant of 30 to 40% by weight is supplied to the alkaline ion electrolytic chamber 144 and ionization is performed according to the electrolytic reaction, the production ratio of alkaline ionized water and acidic ionized water at room temperature is also 60: 70: 30 to 40 Respectively.

Of course, as described above, when there is a demand for a cooling water or a general constant of room temperature, which is not a demand for alkaline ionized water, the flow control valve 150 is connected to the cooling water cooled by the cooler 120, To be outgoing through the electrolytic bath 140 so that a normal constant of the cooling water or the room temperature can be consumed .

The demand for the alkaline ionized water cooled as described above, the demand for the alkaline ionized water at room temperature, the demand for the cooling constant as it is cooled by the cooler 120, The controller 170 controls the flow control valve 150 to supply the cooling water or the general purified water to the electrolytic bath 140 and the electrolytic bath 140 in accordance with a mode such as a demand for a general constant.

In the meantime, the electrolytic chambers 142 and 144 in which the ionized water is to be generated in the configuration of the present invention described above are formed in one electrolytic bath 140 as shown in FIG. That is, in one housing, the acidic ion electrolysis chamber 142 in which acidic ionized water is produced by electrolysis and the alkaline ion electrolysis chamber 144 in which alkaline ionized water is to be produced are separately formed inside the acidic ionic electrolytic chamber 142. In the ionized water drinking mode, the cooling water or general purified water flows into the electrolysis chambers 142 and 144 of the electrolytic bath 140. When the electrolytic bath is in the drinking mode for the cooling water or general water, Is supplied without passing through the electrolytic bath (140).

At least one acidic ionic electrolytic chamber 142 in which the acidic ionized water of the electrolytic bath 140 constructed as described above is formed is constituted of an alkaline ion electrolysis chamber 144 in which alkaline ionized water is to be produced, (+) Electrode plates 142a are provided on both sides of the respective acid ion electrolytic chambers 142,

The alkaline ion electrolytic bath 144 of the electrolytic bath 140 constituted as described above is constituted of an electrolytic chamber in which alkaline ionized water is generated by the diaphragm through which only ions attached to both sides pass, And the acidic ionization of the cooling water or general water supplied by the flow control valve 150 is performed in the acidic ion electrolytic chamber 142.

As shown in FIG. 2, the flow control valve 150 is formed by a CAM driving method. The flow control valve 150 is provided with cooling An alkaline ionized water side outlet 2 'through which the water is discharged to the alkaline ion electrolysis chamber 144, and a water outlet 1' through which the water is discharged, And the acidic ionized water side outlet 3 'for discharging the acidic ionized water to the acidic ion electrolysis chamber 144 where acidic ionized water will be produced.

The flow control valve 150 configured as described above has the water inlet 1 for flowing cooling water or general water, the water outlet 1 'for discharging cooling water or general water, the alkaline ion electrolysis chamber And the acidic ionized water side outlet 3 'to which the acidic ionized water is discharged from the acidic ionized electrolytic chamber 142 where the acidic ionized water is to be generated is turned on / off by the solenoid valve (On / Off).

As shown in FIG. 2, when the position of the CAM reaches a line of '1' according to the ion water demand mode, the water outlet 1 'is off (Off) Closed). On the other hand, as the alkaline ionized water side outlet 2 'and the acidic ionized water side outlet 3' are turned on, the cooling water or general purified water is applied to the alkaline ionized water side outlet 2 'by 60 to 70% Is supplied to the ion electrolytic chamber 144 and 30 to 40% is supplied to the acidic ionized water side outlet 3 'to the acidic ion electrolysis chamber 142 where acidic ionized water will be produced.

On the other hand, by the control of the flow rate control valve 150 according to the demand for the cooled alkaline ionized water or the demand for the alkaline ionized water at normal temperature, the cooling water or the general purified water is supplied to the alkaline ionized water When the ionic electrolytic chamber 144 and the acidic ionic electrolytic chamber 142 in which acidic ionized water is to be produced are supplied at a ratio of 60 to 70:30 to 40 volume ratio, A positive (+) power source and a negative (-) power source are applied to the electrodes 142a and 144a to ionize the purified water according to the electrolysis reaction so that alkaline ionized water and acidic ionized water can be generated.

After the alkaline ionized water and the acidic ionized water are produced by the electrolytic reaction of the electrolytic bath 140 according to the power supply of the power supply unit 160 as described above, the generated cold alkaline ionized water or alkaline ionized water at room temperature is consumed And the acidic ionized water is discarded or used for other purposes.

As described above, when the ionized water generation system 100 according to the present invention does not take out the ionized alkaline ionized water through the electrolysis reaction for a long time, the controller 170 controls the alkaline ionized water discharge means 180 according to the set time The alkaline ionized water changed to the normal temperature is discharged into the alkaline ion electrolytic chamber 144 of the electrolytic bath 140 so that the cold alkaline ionized water can be taken out and taken at any time.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100. Ion Water Generation System 110. Water Filter
120. Cooler 130. Bypass tube
140. Electrolyzer 142. Acid ion electrolytic chamber
142a. Plus (+) electrode plate 144. Alkali ion electrolytic chamber
144a. Minus (-) electrode plate 150. Flow control valve
160. Power supply 162. Polarity converter
170. Control unit 180. Alkaline ion-water discharge means
182. Alkali ionized water circulation pipe 184. Solenoid valve
186. Circulation pump 190. Flow switching valve
200. Alkali ionized water outlet 202. Acid ionized water outlet water
210. Alkali ion water outlet 202. Acid ion water outlet

Claims (5)

An electrolytic cell having an alkaline ion electrolysis chamber provided with an acid ion electrolytic chamber and a negative electrode plate provided with a positive electrode plate, an alkaline ionized water outlet connected to the alkaline ion electrolytic chamber, an acidic ionized water outlet connected to the acidic electrolytic chamber, An acidic ionized water outlet through which the alkaline ionized water generated in the alkaline ion electrolysis chamber is discharged, an acidic ionized water outlet through which the acidic ionized water generated in the acidic electrolytic chamber is discharged, a DC power source A polarity converting device for converting a polarity of a power source supplied from the power supply unit; and a controller for connecting the alkaline ionized water outlet to the alkaline ionized water outlet or the acidic ionized water outlet, and connecting the acidic ionized water outlet to the acidic ionized water outlet And the channel switching to the alkaline ionized water outlet Wherein when the alkaline ionized water in the alkaline ionized electrolytic chamber or the acidic electrolytic chamber is not taken out for a long period of time, the discharge of the alkaline ionized water through the control of the control unit, And an alkaline ionized water discharge means for discharging the ionized water,
The alkaline ionized water discharge unit includes an alkaline ionized water discharge pipe extending from the alkaline ion electrolytic chamber and the acidic electrolytic chamber so as to extend to a predetermined length, and discharging the alkaline ionized water; And
And an electrolytic valve disposed at two connection sites of the alkaline ionized water discharge pipe, the electrolytic water valve being opened and closed under the control of the control unit to discharge the alkaline ionized water. delete The electrolytic apparatus according to claim 1, wherein when the alkaline ionized water in the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber is not taken out for a long time, the electrolytic valve is operated through the control unit to take out the alkaline ionized water, The cooling water cooled by the cooler can be introduced into the alkaline ion electrolytic chamber or the acidic ion electrolytic chamber of the electrolytic bath through the electrolytic bath, while the acidic ion electrolytic chamber or the alkaline ion electrolytic chamber of the electrolytic bath Wherein the ionized water is supplied to the ionized water generating system. 4. The method according to claim 3, wherein the alkaline ionized water in the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber discharges 50% of the alkaline ionized water after 3 to 5 minutes, and discharges the remaining alkaline ionized water after 8 to 10 minutes Characterized in that the ionized water generating system comprises: The method of claim 1, wherein the alkaline ionized water in the alkaline ion electrolysis chamber or the acidic ion electrolysis chamber discharges 30% of the alkaline ionized water after 3 minutes, discharges 30% of the ionized water after 6 minutes, And the remaining alkaline ionized water is discharged into the ionized water generating system.

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