KR20200130973A - The water purifying apparatus using electro-deionization filter and controlling method thereof - Google Patents

Abstract

The present invention relates to a water purification device comprising: an input unit; a water purification unit including an electric deionized filter; and a control unit, and capable of starting a high purity water purification mode according to the user′s input at a time desired by the user through the input unit. In addition, the present invention provides a control method of a water purification device capable of performing a high purity water purification mode.

Description

TECHNICAL FIELD The water purifying apparatus using electro-deionization filter and controlling method thereof

The present invention relates to a water purification apparatus using an electrodeionization filter capable of selecting a high purity water purification mode, and more particularly, to a water purification apparatus including an input unit capable of starting a high purity water purification process by user selection.

The electrodeionization (EDI) process refers to a process of removing ions from raw water using electricity. The electrodeionization filter may have a structure in which an anode and a cathode are formed at both ends of the filter, and a cation exchange membrane and an anion exchange membrane are alternately formed in a state spaced apart from the anode and the cathode by a predetermined interval. The cation exchange membrane refers to a membrane through which only cations pass, and the anion exchange membrane refers to a membrane through which only anions pass. When power is supplied to the electrodes at both ends of the filter, cations in the water pass through the cation exchange membrane and move toward the cathode, and the anions pass through the anion exchange membrane and move toward the anode, resulting in a low Total Dissolved Solids (TDS). Produce water. Purified water may be provided by deionizing raw water through the above-described process.

The electrodeionization filter used in such an electrodeionization process is a filter that adsorbs ionic substances contained in raw water using an electric attraction, and the amount of ionic substances that can be adsorbed is limited. Accordingly, there is a problem in that water in a state in which the water treatment is not sufficiently treated can be provided to the user if the water treatment is performed as usual in a situation where an accident or the like in which wastewater flows into the waterworks occurs.

Korean Patent Registration KR10-0912186B

The present invention aims to solve the above problem, and an object of the present invention is to be able to start a high-purity water purification process by user's selection.

The present invention is an input unit; Purification unit including an electric deionized filter; And a control unit, wherein the control unit receives a user input through the input unit and is set to perform a high-purity water purification mode based on the user input. The water purification unit includes a raw import channel for supplying raw water to the electric deionization filter, a raw import valve provided on the raw import channel to control the flow of the raw water passing through the raw import channel, and the electric deionization A purified water passage for supplying purified water that has passed through the filter to the outside, a purified water valve for controlling the flow of purified water discharged to the purified water passage, a regenerated export water passage through which regenerated water for regenerating the electric deionization flows, and And a recycled/exported water valve for controlling the flow of recycled water passing through the recycled/exported water channel, wherein the control unit is connected to an input unit and a water purification unit to receive a user input input through the input unit to perform a high purity water purification mode on the water purification unit. To be controlled.

In the present invention, the high purity water purification mode may be performed by reducing the amount of raw water introduced through the control unit. Reducing the amount of the incoming raw water can be controlled through the raw water valve.

In addition, in the present invention, the high purity water purification mode may be performed by performing water purification for a first preset time through the control unit and regeneration for a second preset time. The first time may be set shorter than the second time. At this time, the purified water proceeds for the first hour by opening the raw water valve through the control unit and closing the purified water supply valve, and the regeneration is performed for a second time by applying a reverse voltage through the control unit, closing the purified water valve, and opening the regeneration water valve. Can proceed while

In the present invention, the high purity water purification mode is also performed by strongly applying a voltage to the electrode of the electrodeionization filter through a control unit, and the voltage applied in the high purity water purification mode is set higher than the voltage applied in the general water purification mode.

The present invention includes the input unit; Integer part; And it provides a water purifying apparatus further comprising a measuring unit to the control unit. The present invention also includes the input unit; Integer part; A control unit; And a display unit for outputting a measurement result of the measurement unit to the outside.

The present invention also provides a water purifying apparatus capable of automatically controlling to perform a regeneration mode or to reduce an amount of purified water through the control unit when the total dissolved solids concentration of raw water measured by the measuring unit is higher than a preset value. The preset value may be set from 50 to 300 ppm.

The present invention provides a water purifying apparatus that terminates the high-purity water purification mode when there is a user's input thereafter while a high-purity water purification mode is performed by a user's input.

The present invention also includes the steps of: (a) transferring a high-purity water purification mode start command generated by the input unit to a control unit in the above-described water purification apparatus; And (b) the control unit provides a control method of a water purification apparatus comprising the step of proceeding the high purity water purification mode.

According to the present invention, in a water purification apparatus using an electrodeionization filter, it is possible to start a high purity water purification mode according to a user's input at a time desired by the user.

1 is a block diagram of a water purifying apparatus according to an embodiment of the present invention.
2 is a block diagram of a water purifying apparatus according to an embodiment of the present invention.
3 is a schematic diagram of a water purifying apparatus according to an embodiment of the present invention.
4 is a flowchart illustrating an operation process according to an embodiment of a high purity water purification mode according to a user input.

The present invention is a water purification device using an electrodeionization filter, characterized in that it has a function of starting a high purity water purification mode that highly increases the amount of ions removed from raw water by a user's input. In the present invention, the high-purity water purification mode refers to an operation of adsorbing more ions than a general water purification mode so that when the mode is operated, a total dissolved solids (TDS) concentration of water that can be consumed is provided regardless of the state of raw water. It means that it is done.

The water purifying apparatus of the present invention has a function of starting a high purity water purification mode that increases the amount of ions removed from raw water when there is an input from the user. Not only when the user recognizes the possibility of deteriorating the quality of the raw water due to an accident such as detection of heavy metals or inflow of wastewater, but also when the user has a choice at other times, the mode is switched to obtain high-purity purified water. Can be done.

The water purifying apparatus of the present invention may be provided with a means for measuring the total dissolved solids concentration of raw water, and when the measured TDS concentration of raw water is higher than the general value, the water purification mode of various degrees automatically through a separate control unit connected Of course you can do it. However, since the total dissolved solids concentration is not completely proportional to the amount of harmful substances contained in the raw water, the present invention is characterized by having a function of allowing the high purity water purification mode to be directly executed according to the intention of the user.

Hereinafter, the water purifying apparatus of the present invention will be described with reference to the drawings. However, the configuration shown in the drawings of the present invention is not intended to limit the scope of the present invention, it is only one of the preferred embodiments of the present invention and does not represent all the technical spirit of the present invention.

1 is a block diagram of a water purifying apparatus according to an embodiment of the present invention. As shown in FIG. 1, in order to perform the above-described high-purity water purification mode function, the water purification apparatus of the present invention may include a water purification unit 100, a control unit 200, and an input unit 300. In addition, as shown in FIG. 2, a measurement unit 400 for measuring the total dissolved solids concentration of raw water may be additionally included inside, and a display unit 500 for displaying the result measured by the measurement unit may be externally provided. Can be included in addition to. The water purification unit, the control unit, and the measurement unit may be provided inside the device, and the input unit and the display unit may be provided outside the device. Hereinafter, a water purification unit, an input unit, a control unit, a measurement unit, and a display unit will be described in order according to the operating principle of the water purifying apparatus of the present invention.

In the water purifying apparatus according to the present invention, the water purifying unit 100 refers to all components that can be provided to a user after raw water is introduced and the introduced raw water is purified. In the present invention, water purification is achieved through the electrodeionization filter 110, and the water purification unit of the present invention also includes a means for regenerating the electrodeionization filter. In general, regeneration of the electrodeionization filter is performed by applying a voltage reversely as described later, and thus the electrodeionization filter regeneration means may include a separate flow path for discharging the regenerated water or a valve provided in the flow path.

In this specification, water before flowing into the electrodeionization filter is referred to as raw water, and water purified through the electrodeionization filter is referred to as purified water. In the water purifying apparatus 1 of the present invention, the water purifying unit 100 is located inside the main body, and the configuration thereof will be described in detail with reference to FIG. 3, an electric deionization filter 110 for purifying raw water, the electric deionization filter The raw water flow path 110a for supplying raw water to the raw water flow path, a raw water valve 102 provided on the raw water flow path and controlling the flow of raw water flowing into the raw water flow path, and the electric deionization filter A purified water discharge channel 110b for supplying purified water to the outside, and a purified water valve 104 for controlling the flow of purified water discharged to the purified water passage may be included. However, a part of the purified water passage may be exposed outside the main body to be supplied to the user. In addition, as a regeneration means, a regeneration export water passage (106a, 106b) for discharging desorbed ions after applying a voltage to the electrodeionization filter in reverse, and a regeneration export water valve 106 provided in the regeneration export water passage are included. can do. The recycled export water passage may be connected to a part of the purified water discharge passage as shown in FIG. 3.

The opening and closing operation of the valve in the water purification unit may be performed by controlling whether or not power is applied through a separate control unit 200, but is not limited thereto. In addition, the valve may be a solenoid valve, but is not limited thereto.

The water purification unit of the present invention may further include a separate filter in addition to the above-described electrodeionization filter. As an example, the water purifying unit of the present invention may include a pre-treatment filter through which raw water can pass before reaching the electric deionization filter after passing the raw water valve. Alternatively, a post-treatment filter capable of passing purified water before reaching the purified water outlet valve after passing through the electrodeionization filter may be included, and both may be included. A separate filter that may be additionally included may include at least one of various types of filters including a sediment filter, a carbon filter, and a deionization filter. The type, number, and order may be variously changed according to the filtering method of the water purification device or the filtering performance required for the water purification device.

Meanwhile, a process of purifying raw water through the purifying unit of the present invention will be described as follows. Raw water such as valley water, ground water, and tap water provided from the source contains ionic substances such as calcium, magnesium, and chlorine ions, and the water purifying unit of the present invention absorbs ions in the raw water through an electrodeionization filter to obtain purified water. To create.

The electrodeionization filter has an anode and a cathode, and a water separation ion exchange membrane is arranged between both electrodes, and the water separation ion exchange membrane is composed of a bipolar membrane in the form of a combination of an anion exchange membrane and a cation exchange membrane. It may include a membrane.

The electrodeionization filter serves to provide purified water to the user by removing ionic substances in the raw water through electrical attraction. Specifically, the water purification mode that removes ions from the raw water and the regeneration that removes ions accumulated in the filter in the purified water mode Operates in mode. In the water purification mode, when a voltage is applied across the water separation ion exchange membrane by a power supply source, the movement of ions is induced by an electric field, and the cation exchange membrane and the anion exchange membrane respectively adsorb ions to separate ionic substances in raw water. On the other hand, the electrodeionization filter may perform a regeneration mode in which adsorbed ions are removed because the water purification performance deteriorates when the deionization process of a certain capacity or more is performed. When reverse bias is applied between both electrodes in the regeneration mode, hydrogen ions and hydroxide ions are generated by decomposition of water at the interface of the water separation ion exchange membrane, and move out of the ion exchange membrane from the interface of the bipolar membrane by an electric field. In this process, the ions accumulated in the ion exchange membrane are desorbed, and the desorbed ions may be discharged together by introducing and discharging a fluid such as raw water. The electrodeionization filter can be regenerated without replacement by a simple operation without using separate washing water or the like through the above-described operation.

In the present invention, the input unit 300 refers to all components that receive a command to start a high purity water purification mode from a user. The user may control to proceed with a higher degree of water purification process than usual according to the user's own intention at a desired time point through the input unit. It goes without saying that the user's input can be performed by directly recognizing information about the deterioration of the raw water quality.

The input unit for receiving the user's input may be composed of at least one of a touch pad, a touch screen, a button, and a lever provided outside the water purifier, but is not limited thereto. Does not. The user's input may be performed by manipulating the input unit, and when a command is input through the input unit, the high purity water purification mode may be started through a control unit to be described later. On the other hand, even if the high-purity water purification mode is in progress by the user's input, it may be terminated by the user's input thereafter. The end command of the high purity water purification mode may be performed by reversely operating the means operated at the start of the high purity water purification mode, or may be performed by operating a separate means for termination. As an example, when the means of the input unit is provided as a button, the high purity water purification mode is started by pressing the button so that the button is lowered, and the lowered button is raised by pressing this again to end the high purity water purification mode.

In the present invention, the control unit 200 refers to all components capable of starting a high-purity water purification mode by detecting a user's input through the input unit. The high-purity water purification mode refers to a mode performed to adsorb more ions than the amount absorbed by deionizing from raw water in a general purification process.

The above-described high-purity water purification mode is not limited as long as it is a method capable of adsorbing significantly more ions than the general water purification mode. For example, by reducing the flow rate and flow rate, a small amount of raw water stays in the electrodeionization filter for a relatively long time. It can be made to adsorb positive ions. Alternatively, the process of adsorbing ions from a small amount of raw water and desorbing the adsorbed ions may be performed for a long time by controlling the purification time to be short and the regeneration time to proceed for a long time. In addition, by increasing the applied voltage, the electric attraction may be increased to adsorb a large amount of ions, and a separate filter may be further passed through only when the high-purity water purification mode is operated, or a mixture of the above-described methods may be used. have. In addition, the high purity water purification mode may be performed step by step to varying degrees. That is, it may be configured to set one or more levels to adjust the degree of water purification according to the user's selection.

In the high-purity water purification mode, it is possible to reduce the inflow of raw water to be purified through a flow control valve or the like, or reduce the flow rate to purify a small amount of raw water for a long time. Alternatively, it can be adjusted to make the water purification time shorter and the playback time longer than the general water purification mode.

The flow rate control valve is capable of controlling the inflowing flow rate, and can be operated through a separate control unit, and in the present invention, a raw import valve is provided as a valve in a flow control form to control the amount of incoming raw water. I can. In the case of reducing the flow rate, it may be performed by introducing a lesser amount of raw water (W ₂ ) than the amount of raw water (W ₁ ) introduced in the normal water purification mode (W ₁ >W ₂ ). On the other hand, in the high-purity water purification mode, the amount of raw water (W ₂ ) introduced can be set in advance, and when a user's command is input, the raw water can be set to flow as much as a preset value.

When the water purification time is shortened and the reproduction time is extended, the water purification and reproduction time in the high purity water purification mode may be preset in the control unit to proceed. The control unit of the present invention may determine whether the valve is opened or closed by determining whether or not the set time is reached by including a timer or the like. Specifically, referring to FIG. 4, when there is a user input (S1), an input signal is transmitted to the controller (S2). The control unit controls the raw water valve and the purified water valve to open and proceeds to the water purification mode (S3), and when the preset water purification time (the first hour) is reached (S4), the voltage is reversely applied, the purified water valve is closed, and regeneration. It is possible to control the regeneration to proceed by opening the export water valve (S5). Regeneration proceeds (S6) for a preset regeneration time (second time) and ends the high purity water purification mode when the second time is reached. In this case, the first time, which is an integer time, is shorter than the second time, which is the reproduction time. In addition, by adjusting the length and length of the set time step by step and setting it in advance in the control unit, it is possible to implement a high purity water purification mode level of one or more.

In the case of increasing the voltage, it may be performed by applying a higher voltage P ₂ to each electrode of the electrodeionization filter than the voltage P ₁ applied in the normal water purification mode (P ₁ <P ₂ ). The voltage supply source for supplying the voltage is connected to a separate control unit, and receives a signal from the control unit to supply different voltages to the electrodes. The voltage supply may use a variable voltage source to supply multiple voltage levels. The variable voltage source may provide a variable voltage by full wave or half wave rectification of an alternating current (AC) voltage. For example, it may be a phase control voltage source or a switching voltage source including a pulse band modulator, but is not limited thereto. Meanwhile, the voltage P ₂ applied in the high purity water purification mode can be set in advance, and when a user's command is input, it can be set to apply the voltage as much as a preset value.

When a separate filter is further passed only when the high-purity water purification mode is operated, the raw water may be controlled to flow into a separate flow path and filter through an openable valve or the like. The opening and closing operation of the valve may be operated through separate power application, and may be controlled through a separate connected control unit, but is not limited thereto. In addition, the valve may be a solenoid valve, but is not limited thereto. The separate filter that can be used above may include at least one of various types of filters including a sediment filter, a carbon filter, and a deionization filter. The type, number, and order may be variously changed according to the filtering method of the water purification device or the filtering performance required for the water purification device.

The water purifying apparatus of the present invention may also include a measuring unit 400 provided with a means for measuring the total dissolved solids concentration of raw water. The means for measuring the total dissolved solids concentration of raw water in the measuring unit of the present invention may be, for example, a total dissolved solids sensor (TDS sensor) installed in the raw water channel. As another example, a total dissolved solids concentration sensor is provided in the purified water intake channel to measure the TDS value of purified water, and the TDS value of the raw water may be calculated using a target TDS removal rate preset in the electrodeionization filter. As another example, it is possible to derive a TDS value through a current measured by applying a voltage to the electrodeionization filter 110.

Since ions contained in raw water exhibit electrical conduction, the total dissolved solids concentration can be measured through this, and the total dissolved solids concentration of general tap water is about 50 to 300 ppm.

When the total dissolved solids concentration significantly exceeding the above range is measured due to deterioration of the raw water quality due to external factors, the control unit may detect this and determine whether the raw water quality deteriorates. The total dissolved solids concentration, which is a criterion for determining that the water quality of raw water has been highly deteriorated, can be set in various ways, but it is generally determined that it is 500 ppm or more. Alternatively, it may be determined that the data on the total dissolved solids concentration of the raw water is stored and the total dissolved solids concentration of the raw water is significantly higher than that of the raw water.

In addition, the control unit of the present invention may automatically change the mode according to the value measured by the measurement unit. That is, when the total dissolved solids concentration of raw water is higher than that of a general case, the regeneration mode may be controlled or the amount of purified water may be reduced by reducing the amount of purified water. As described above, automatic control through the control unit is possible, but it goes without saying that the high-purity water purification mode can be performed at any time according to the user's input.

In addition, the measuring unit of the present invention measures the total dissolved solids concentration of raw water through the sensor, etc., and when the total dissolved solids concentration is much higher than that of general raw water, it is possible to perform an operation to notify the user through a display unit to be described later. .

The display unit 500 of the present invention may indicate to the user that it is necessary to start the high purity water purification mode when a value significantly exceeding a preset range is measured as the total dissolved solids concentration of general raw water. The display may be visually and/or audibly output, and for example, may be performed by at least one of a lamp, a speaker, and a screen, but is not limited thereto. In addition, it may be provided at the same position as the above-described input unit. As an example, when the input unit is configured as a touch screen, it may be displayed on a part of the same screen.

Hereinafter, a method for controlling the water purifying apparatus according to the present invention will be described.

The control method of the water purifying apparatus of the present invention includes an input unit; Purification unit including an electric deionized filter; And a control method comprising a control unit, comprising: (a) transmitting a command to start a high purity water purification mode generated by the input unit to the control unit; And (b) the control unit provides a control method of a water purification apparatus comprising the step of proceeding the high purity water purification mode.

When a user's command is input through step (a), the controller detects it, and proceeds to the high purity water purification mode through step (b). The high purity water purification mode refers to a mode performed to adsorb significantly more ions than the general water purification mode in the electrodeionization filter.

The high purity water purification mode may be performed by adjusting the control unit to reduce the amount of raw water flowing into the water purification unit. Through the flow control valve, etc., the inflow of raw water to be purified can be reduced, or the flow rate can be reduced to purify a small amount of raw water for a long time. Alternatively, it can be adjusted to make the water purification time shorter and the playback time longer than the general water purification mode.

The flow rate control valve is capable of controlling the inflowing flow rate, and can be operated through a separate control unit, and in the present invention, a raw import valve is provided as a valve in a flow control form to control the amount of incoming raw water. I can. In the case of reducing the flow rate, it may be performed by introducing a lesser amount of raw water (W ₂ ) than the amount of raw water (W ₁ ) introduced in the normal water purification mode (W ₁ >W ₂ ). On the other hand, in the high-purity water purification mode, the amount of raw water (W ₂ ) introduced can be set in advance, and when a user's command is input, the raw water can be set to flow as much as a preset value.

When the water purification time is shortened and the reproduction time is extended, the water purification and reproduction time in the high purity water purification mode may be preset in the control unit to proceed. The control unit of the present invention may determine whether the valve is opened or closed by determining whether or not the set time is reached by including a timer or the like.

Specifically, a control method of a water purifying apparatus according to an embodiment of the present invention will be described with reference to FIG. 4 as follows. When there is an input from the user (S1), the signal is transmitted to the control unit (S2) to perform the high purity water purification mode. The control unit first controls the raw water valve and the purified water valve to open and proceeds to the water purification mode (S3). Purify the water until the preset water purification time (first time) is reached (S4), and when the first time is reached, the voltage is applied in reverse, the purified water valve is closed, and the regeneration water valve is opened to proceed to the regeneration mode. (S5) Do it. The regeneration proceeds (S6) until the preset regeneration time (second time) is reached, and when the second time is reached, the high-purity water purification mode is terminated.

Additionally, by adjusting the length and length of the set time step by step and presetting it in the control unit, one or more high purity water purification mode levels may be implemented.

The high purity water purification mode can also be performed by increasing the voltage applied to the electrodeionization filter. That is, it can be performed by applying a higher voltage (P ₂ ) than the voltage (P ₁ ) applied in the general water purification mode to each electrode of the electrodeionization filter (P ₁ <P ₂ ). The voltage supply source for supplying the voltage is connected to a separate control unit, and receives a signal from the control unit to supply different voltages to the electrodes. The voltage supply may use a variable voltage source to supply multiple voltage levels. The variable voltage source may provide a variable voltage by full wave or half wave rectification of an alternating current (AC) voltage. For example, it may be a phase control voltage source or a switching voltage source including a pulse band modulator, but is not limited thereto. Meanwhile, the voltage P ₂ applied in the high purity water purification mode can be set in advance, and when a user's command is input, it can be set to apply the voltage as much as a preset value.

The high purity water purification mode may be performed by further passing through a separate filter. In the case of further passing through a separate filter, the raw water may be adjusted to flow into a separate flow path and filter through a valve that can be opened or closed. The opening and closing operation of the valve may be operated through separate power application, and may be controlled through a separate connected control unit, but is not limited thereto. In addition, the valve may be a solenoid valve, but is not limited thereto. The separate filter that can be used above may include at least one of various types of filters including a sediment filter, a carbon filter, and a deionization filter. The type, number, and order may be variously changed according to the filtering method of the water purification device or the filtering performance required for the water purification device.

On the other hand, the input unit for receiving the user's input may be composed of one or more means of a touch pad, a touch screen, a button, and a lever provided outside the water purifying apparatus. Not limited. The user's input may be performed by manipulating the input unit, and when a command is input through the input unit, the high-purity water purification mode may be started through a control unit.

In addition, even if the high-purity water purification mode is in progress by the user's input, it may be terminated by the user's input thereafter. The end command of the high purity water purification mode may be performed by reversely operating the means operated at the start of the high purity water purification mode, or may be performed by operating a separate means for termination. As an example, when the means of the input unit is provided as a button, the high purity water purification mode is started by pressing the button so that the button is lowered, and the lowered button is raised by pressing this again to end the high purity water purification mode.

Meanwhile, an operation capable of opening and closing the valve may be performed through a conventional method used in the technical field of the present invention. As an example, a solenoid valve that can be controlled by applying a separate power source may be used for the raw water valve, the purified water valve, the purified water valve, the sterilizing and washing import valve, and the sterilizing and washing water drain valve used in the present invention. , It is possible to control whether or not power is applied through a separate control unit.

1: water purification device
100: integer part
102: raw imported valve
104: purified water valve
106: regenerative export water valve
106a, 106b: recycled export water channel
110: electric deionization filter
110a: Raw import channel
110b: Water purification channel
200: control unit
300: input
400: measurement unit
500: display

Claims (17)

Input unit; Purification unit including an electric deionized filter; And a control unit,
The water purification unit includes a raw import channel for supplying raw water to the electric deionization filter, a raw water valve provided on the raw import channel to control the flow of the raw water passing through the raw import channel, and the electric deionization A purified water passage for supplying purified water that has passed through the filter to the outside, a purified water valve for controlling the flow of purified water discharged to the purified water passage, a regenerated export water passage through which regenerated water for regenerating the electric deionization flows, and And a recycled export water valve for controlling the flow of recycled water passing through the recycled export water passage,
The control unit is connected to the input unit and the water purification unit, respectively, and receives a user input input through the input unit to control the water purification unit to perform a high purity water purification mode.
The method of claim 1,
The high purity water purification mode is performed by reducing the amount of raw water introduced through the control unit,
The water purifying apparatus, wherein the amount of raw water introduced in the high purity water purification mode is less than the amount of raw water introduced in the general water purification mode.
The method of claim 2,
Reducing the amount of the incoming raw water is controlled through the raw water valve, water purifying device.
The method of claim 1,
The high purity water purification mode is performed by purifying water for a first preset time through the control unit and performing regeneration for a second preset time.
The method of claim 4,
The first time is set to be shorter than the second time, water purifying apparatus.
The method of claim 4,
The purified water proceeds for a first hour by opening the raw water valve and closing the purified water discharge valve through the control unit,
The regeneration is performed for a second time by applying a reverse voltage through a control unit, closing the purified water valve, and opening the regeneration export water valve.
The method of claim 1,
The high purity water purification mode is performed by strongly applying a voltage to the electrode of the electrodeionization filter through the control unit,
The water purifying apparatus, wherein the voltage applied in the high purity water purification mode is higher than the voltage applied in the general water purification mode.
The method of claim 1,
Water purifying apparatus further comprising a measuring unit for measuring the total dissolved solids concentration of raw water.
The method of claim 7,
The water purifying apparatus further includes a display unit, wherein the display unit outputs a measurement result of the measurement unit to the outside.
The method of claim 7,
When the total dissolved solids concentration of raw water measured by the measuring unit is higher than a preset value, performing a regeneration mode or reducing the amount of purified water through the control unit.
The method of claim 10,
The preset value is set among 50 to 300 ppm, a water purifier.
The method of claim 1,
In the process of the high purity water purification mode, the high purity water purification mode is terminated when there is an input from a user.
Input unit; Purification unit including an electric deionized filter; And in the control method of the water purification device comprising a control unit,
(a) transmitting a command to start a high purity water purification mode generated by the input unit to a control unit; And
(b) The control method of the water purifying apparatus comprising the step of the control unit to proceed to the high purity water purification mode.
The method of claim 13,
The step (b) is performed by the control unit reducing the amount of raw water flowing into the water purification unit,
The amount of raw water introduced in the high-purity water purification mode is less than the amount of raw water introduced in the general water purification mode.
The method of claim 13,
The step (b) is performed by the control unit performing water purification for a preset first time and regeneration for a preset second time.
The method of claim 15,
The first time is set shorter than the second time, the control method of the water purifier.
The method of claim 15,
The high purity water purification mode is performed by applying a voltage to the electrode of the electrodeionization filter through the control unit,
The voltage applied in the high-purity water purification mode is higher than the voltage applied in the general water purification mode.

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