KR20220122182A - Water purifier, and method for controlling the same - Google Patents

Abstract

One embodiment of the present invention relates to a water purifier which comprises: an input unit receiving an input from a user; a raw water passage where the raw water is introduced; a purified water passage connected to the raw water passage to have an outlet nozzle; a filter arranged on the purified passage to filter the raw water; a drain passage branched from the purified water passage between the filter and the outlet nozzle to be connected to a drainage; a drain valve closing or opening the drain passage; a filter water-feeding passage having one end connected to the filter and the other end connected to the drainage; a filter water-feeding valve closing or opening the filter water-feeding passage; and a control unit controlling the filter water-feeding valve in response to the received input for replacing the filter from the user such that the filter water-feeding passage is opened and controlling the filter water-feeding valve and the drain valve such that cleaning of the filter and the purified water passage is performed after the filter is replaced. Accordingly, pressure in the filter is lowered before replacement of the filter to facilitate replacement of the filter and cleaning of the filter and the passage can be automatically performed after replacement of the filter.

Description

Water purifier and its control method

The present invention relates to a water purifier capable of automatically washing the inside.

A water purifier is a device that provides drinking water to users by filtering raw water supplied from the outside. To this end, the water purifier includes at least one filter for filtering raw water, a plurality of pipes through which raw water or purified water flows, and a valve for controlling the flow of raw water or purified water as components.

In this case, the filter needs to be replaced according to deterioration of filter performance after a predetermined time or after processing a predetermined flow rate, and may be replaced by a user or a repair technician.

After the filter is replaced, a user or a repair technician manually drains a certain amount of water, because even a new filter that has never been used contains foreign substances such as coal dust, so cleaning is required.

Provided are a water purifier that facilitates filter replacement by lowering the pressure in the filter before replacing the filter, and automatically cleans a filter and a flow path after replacing the filter, and a method for controlling the same.

A water purifier according to an embodiment includes: an input unit for receiving a user input; a raw water flow path through which raw water flows; a purified water passage connected to the raw water passage and provided with a water outlet nozzle; a filter provided in the purified water passage to filter the raw water; a drain passage branched from the purified water passage between the filter and the water outlet nozzle and connected to the drain; a drain valve that opens and closes the drain passage; a filter water passage having one end connected to the filter and the other end connected to the drain port; a filter water passage valve for opening and closing the filter water passage passage; and controlling the filter water passage valve to open the filter water passage passage in response to receiving a user input for filter replacement, and performing a washing cycle on the filter and the purified water passage after the filter is replaced; and a control unit controlling the drain valve.

The water purifier may further include a raw water valve that opens and closes the raw water flow path, wherein the controller controls the raw water valve to close the raw water flow path in response to receiving a user input for filter replacement, and passes the filter The filter water flow valve may be controlled to open the flow path for a first time.

The water purifier may further include a display, and the controller may control the display to output a notification instructing replacement of the filter after the filter water passage is opened for the first time.

The control unit may control the raw water valve to open the raw water flow path for a cleaning operation of the filter after replacing the filter, and control the filter water flow valve to open the filter water flow path for a second time. have.

The water purifier may include: a raw water inflow control valve provided on the water outlet pipe side of the filter in the purified water passage to control the inflow of raw water from the raw water passage; and a purified water passage valve provided on the side of the water outlet nozzle of the purified water passage to control the flow of purified water in the purified water passage, wherein after the filter water passage is opened for the second time, the cleaning process of the filter for controlling the drain valve to open the drain passage, controlling the raw water inflow control valve and the purified water passage valve to open the purified water passage, and opening the filter water passage for a third time period. You can control the valve.

The control unit may control the drain valve to open the drain flow path for a washing operation of the filter after the filter water flow passage is opened for the third time period, and control the inflow of the raw water to open the purified water passage The valve and the purified water passage valve may be controlled, and the filter water passage valve may be controlled to open the filter water passage passage for a fourth time period.

The water purifier includes: a heater; cooler; a hot water flow path branched from the purified water flow path and connected back to the purified water flow path through the heater; a cold water flow path branched from the purified water flow path and connected back to the purified water flow path through the cooler; a hot water flow valve for opening and closing the hot water flow path; and a cold water flow path valve for opening and closing the cold water flow path, wherein the control unit sequentially performs a washing cycle for each of the purified water flow path, the hot water flow path, and the cold water flow path after performing the washing cycle for the filter can be done

The control unit may sequentially open the drain valve, the hot water flow path valve, and the raw water inflow control valve to perform a washing operation on the hot water flow path.

The controller may sequentially open the drain valve, the cold water flow path valve, and the raw water inflow control valve to perform a washing process on the cold water flow path.

The control unit controls the drain valve to open the drain flow path to perform a washing operation on the purified water flow path, controls the raw water inflow control valve and the purified water flow path valve to open the purified water flow path, and the filter The filter water passage valve may be controlled to open the water passage passage.

The water purifier according to an embodiment comprising an input unit for receiving a user input, a raw water flow path through which raw water is introduced, a purified water flow path connected to the raw water flow path and provided with an outlet nozzle, and a filter provided in the purified water flow path to filter the raw water. The control method of controlling a filter water passage valve that opens and closes the filter water passage to open the filter water passage including one end connected to the filter and the other end connected to the drain port in response to receiving a user input for filter replacement, ; Controls a drain valve that opens and closes the filter water passage valve and the water purification passage between the filter and the water outlet nozzle and opens and closes the drain passage connected to the drain port so as to perform a cleaning cycle for the filter and the purified water passage after the filter is replaced to do; includes

The water purifier may further include a raw water valve that opens and closes the raw water flow path, and controlling the filter water passage valve to open the filter water passage may include: in response to receiving a user input for filter replacement, opening the raw water flow passage control the raw water valve to close; and controlling the filter water passage valve to open the filter water passage passage for a first time.

The water purifier further includes a display, and the control method of the water purifier includes controlling the display to output a notification instructing replacement of the filter after the filter water passage is opened for the first time; may include more.

The performing of the washing cycle for the filter may include: controlling the raw water valve to open the raw water flow path for the washing cycle of the filter after replacing the filter; and controlling the filter water passage valve to open the filter water passage passage for a second time period.

The water purifier may include: a raw water inflow control valve provided on the water outlet pipe side of the filter in the purified water passage to control the inflow of raw water from the raw water passage; and a purified water passage valve provided on the water outlet nozzle side of the purified water passage to control the flow of purified water in the purified water passage. controlling the drain valve to open the drain flow path and controlling the raw water inflow control valve and the purified water flow path valve to open the purified water flow path for a cleaning cycle of the filter after being opened; and controlling the filter water passage valve to open the filter water passage passage for a third time period.

The performing of the washing cycle for the filter may include: after the filter water passage is opened for the third time period, controlling the drain valve to open the drain flow path for the washing cycle of the filter; controlling the raw water inflow control valve and the purified water passage valve to open the purified water passage; and controlling the filter water passage valve to open the filter water passage passage for a fourth time period.

The water purifier includes: a heater; cooler; a hot water flow path branched from the purified water flow path and connected back to the purified water flow path through the heater; a cold water flow path branched from the purified water flow path and connected back to the purified water flow path through the cooler; a hot water flow valve for opening and closing the hot water flow path; and a cold water flow path valve for opening and closing the cold water flow path, wherein performing the washing cycle on the purified water flow path includes performing the washing cycle on the filter, the purified water flow path, the hot water flow path, and the cold water flow path It may include; sequentially performing the washing process for each.

The performing of the washing cycle for the hot water flow path may include sequentially opening the drain valve, the hot water flow path valve, and the raw water inflow control valve to perform the washing cycle on the hot water flow path.

The performing of the washing cycle for the cold water flow path may further include sequentially opening the drain valve, the cold water flow path valve, and the raw water inflow control valve to perform the washing cycle on the cold water flow path. .

The performing of the washing cycle on the purified water flow path may include: controlling the drain valve to open the drain flow path to perform the washing cycle on the purified water flow path; controlling the raw water inflow control valve and the purified water passage valve to open the purified water passage; and controlling the filter water passage valve to open the filter water passage passage.

According to the water purifier according to the exemplary embodiment, the pressure in the filter is lowered before the filter replacement to facilitate the filter replacement, and the filter and the flow path can be automatically cleaned after the filter replacement.

1 is a view showing a water purifier according to an embodiment.
2 is a control block diagram of a water purifier according to an embodiment.
3 is a diagram illustrating a case in which the water purifier according to an exemplary embodiment removes the pressure of the filter unit in response to a user input for replacing the filter unit.
4 is a diagram illustrating a case in which the water purifier displays a notification instructing replacement of a filter unit according to an exemplary embodiment.
5 is a view illustrating a case in which the water purifier according to an embodiment cleans the filter unit by opening the filter water passage passage after replacing the filter unit.
6 is a view illustrating a membrane filter of the filter unit according to an embodiment.
7 is a view illustrating a case in which the water purifier according to an exemplary embodiment cleans the filter unit by opening the filter water passage and drain passages after replacing the filter unit.
8 is a view illustrating a case in which the water purifier according to an embodiment washes the hot water flow path after replacing the filter unit.
9 is a view illustrating a case in which the water purifier according to an embodiment washes the cold water flow path after replacing the filter unit.
10 is a diagram illustrating a case in which the water purifier according to an embodiment washes the purified water passage after replacing the filter unit.
11 is a flowchart illustrating a case of removing pressure before replacing a filter unit in a method of controlling a water purifier according to an exemplary embodiment.
12 is a flowchart illustrating a case in which a washing process is performed after replacing a filter unit in a control method of a water purifier according to an exemplary embodiment.
13 is a flowchart illustrating a case of performing a washing process on a filter after replacing a filter unit in a method of controlling a water purifier according to an exemplary embodiment.
14 is a flowchart illustrating a case in which a washing cycle is performed on an entire flow path after a filter unit is replaced in a method of controlling a water purifier according to an exemplary embodiment.

The configuration shown in the embodiments and drawings described in this specification is only a preferred example of the disclosed invention, and there may be various modifications that can replace the embodiments and drawings of the present specification at the time of filing of the present application.

Throughout this specification, when a part is "connected" to another part, it includes not only a case in which it is directly connected, but also a case in which it is indirectly connected, and the indirect connection refers to being connected through a wireless communication network. include

In addition, the terms used herein are used to describe the embodiments, and are not intended to limit and/or limit the disclosed invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, terms including an ordinal number such as "first", "second", etc. used herein may be used to describe various elements, but the elements are not limited by the terms, and the terms are It is used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

In addition, terms such as "~ part", "~ group", "~ block", "~ member", and "~ module" may mean a unit for processing at least one function or operation. For example, the terms may mean at least one process processed by at least one hardware such as a field-programmable gate array (FPGA) / application specific integrated circuit (ASIC), at least one software stored in a memory, or a processor. have.

The signs attached to each step are used to identify each step, and these signs do not indicate the order between the steps, and each step is performed differently from the stated order unless the context clearly indicates a specific order. can be

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a water purifier according to an embodiment.

Referring to FIG. 1 , the water purifier 1 according to an exemplary embodiment has a raw water flow path 10 through which raw water such as tap water is introduced from the outside, is connected to the raw water flow path 10 , and an outlet nozzle 180 is provided at the end. A purified water passage 20 used as a water purification system, a filter unit 30 provided in the purified water passage 20 to filter the incoming raw water, a drain port 40 through which the liquid inside the water purifier 1 is drained to the outside, and a filter unit 30 ) and a drain passage 50 branched from the purified water passage 20 between the water outlet nozzles 25 and connected to the drain port 40 . The flow paths provided in the water purifier 1 may be formed by a plurality of pipes.

The raw water flow path 10 according to an embodiment is connected to an external water pipe so that raw water can be introduced, and the raw water flow path 10 includes a raw water valve 141 for controlling the inflow of raw water and reducing the pressure of the raw water. A pressure reducing valve 15 may be provided for.

In addition, in the raw water flow path 10, according to an embodiment, it is also possible to further arrange a sedimentation filter or a high turbidity filter for filtering relatively large particles to filter the sediment contained in the raw water.

The purified water flow path 20 according to an embodiment is connected to the raw water flow path 10 to receive raw water from the raw water flow path 10 , and the purified water flow path 20 includes an inflow of raw water from the raw water flow path 10 . A raw water inflow control valve 142 for controlling may be provided.

In addition, a filter unit 30 for filtering raw water may be provided in the purified water passage 20 . The filter unit 30 may include a plurality of filters, for example, a pre-carbon filter that adsorbs volatile substances such as chlorine and chlorine by-products from raw water, a very small size by reverse osmosis pressure. It may include a membrane filter 35 that filters out contaminants and a post-carbon filter that affects the taste of the purified water.

At this time, the plurality of filters may be connected in order of the pre-carbon filter, the membrane filter 35 and the post-carbon filter, and the raw water introduced into the filter unit 30 includes the free carbon filter, the membrane filter 35 and the post-carbon filter. It can be filtered while passing through the filter order.

The description of the type of filter of the filter unit 30 described above is only an example applicable to the embodiment of the water purifier 1 , and the embodiment of the water purifier 1 is not limited to the above-described example. Accordingly, it is of course possible that other types of filters other than the above-described examples may be provided in a different number and in a different arrangement.

In addition, the water outlet nozzle 180 may be provided at the end of the purified water passage 20 , and a purified water passage valve 143 for controlling the flow of purified water may be provided at the front end of the water outlet nozzle 180 . That is, when the water outlet valve 143 is opened, purified water filtered by the filter unit 30 may be discharged to the outside through the water outlet nozzle 180 provided at the downstream end of the purified water passage 20 .

Meanwhile, in the embodiment of the water purifier 1 , the upstream and downstream and the front and rear ends are determined according to the direction in which the water introduced into the water purifier 1 flows. The side close to the direction in which the raw water flows in from the outside is the upstream or the front end, and the side close to the direction in which the raw water is discharged or discharged to the outside is the downstream or the rear end.

In addition, in the purified water passage 20 , according to an embodiment, a flow sensor 110 for detecting a flow rate in the purified water passage 20 may be provided, and provided between the filter unit 30 and the water outlet nozzle 180 . can be The flow sensor 110 senses a corresponding flow rate when a liquid flows in the purified water flow path 20 , such as when the purified water flow path valve 143 is opened and purified water is discharged to the outside through the water outlet nozzle 180 . value can be printed.

A drain passage 50 may be connected downstream of the purified water passage 20 . That is, the drain passage 50 is branched from the purified water passage 20 between the filter unit 30 and the water outlet nozzle 180 and is connected to the drain 40 so that the liquid in the purified water passage 20 can be drained to the outside. let it be

A drain valve 144 for controlling the flow of purified water by opening and closing the drain channel 50 and a check valve (not shown) for preventing the reverse flow of purified water may be provided in the drain channel 50 .

The drain passage 50 may be branched from the purified water passage 20 , and when the drain valve 144 is opened, purified water flowing through the purified water passage 20 is introduced into the drain passage 50 and ends of the drain passage 50 . It may be discharged to the outside through the drain port 40 of the water purifier 1 connected to the side.

Meanwhile, the water purifier 1 according to an embodiment may further include a hot/cold water device for providing cold water or hot water, and the cold/hot water device may include a heat exchanger. The cold/hot water device may be provided downstream of the purified water passage 20 . That is, the cold/hot water device may be provided in the purified water passage 20 between the filter unit 30 and the water outlet nozzle 180 .

Specifically, the water purifier 1 according to an embodiment includes a heater 160 for heating purified water, and a hot water flow path branched from the purified water flow path 20 and connected back to the purified water flow path 20 through the heater 160 . (60) and a hot water flow path valve 145 for opening and closing the hot water flow path 60 may be included. At this time, one end of the hot water flow path 60 is connected to the front end of the purified water flow path 20 with respect to the purified water flow path valve 143 , and the other end of the hot water flow path 60 is purified based on the purified water flow valve 143 . It may be connected to the rear end of the flow path 20 .

In addition, the water purifier 1 according to an embodiment includes a cooler 170 for cooling purified water, and a cold water flow path branched from the purified water flow path 20 and connected back to the purified water flow path 20 through the cooler 170 ( 70 , and a cold water flow path valve 146 for opening and closing the cold water flow path 70 . In this case, one end of the cold water flow path 70 is connected to the front end of the purified water flow path 20 with respect to the purified water flow path valve 143 , and the other end of the cold water flow path 70 is purified based on the purified water flow valve 143 . It may be connected to the rear end of the flow path 20 .

In addition, according to an embodiment, the water purifier 1 includes one end connected to the filter unit 30 and the other end connected to the drain port 40 , and the raw water containing impurities from the filter unit 30 is drained. A filter water passage 80 may be further included.

Specifically, the filter water passage 80 may be connected to the filter housing of the membrane filter 35 of the filter unit 30 , and raw water for washing the inside of the membrane filter 35 passes through the inside of the membrane filter 35 . To be drained to the drain port (40).

In this case, the filter water passage valve 147 for controlling the flow of raw water passing through the membrane filter 35 by opening and closing the filter water passage passage 80 may be provided in the filter water passage passage 80 .

In addition, according to an embodiment, the water purifier 1 has one end connected to the raw water flow path 10 so that the raw water bypasses the filter unit 30 , and the purified water flow path 20 between the filter unit 30 and the water outlet nozzle 180 . ), and may further include a sterilizing water flow path 90 for generating sterilizing water by treating raw water.

In this case, at least one of the purified water flow path 20 and the sterilizing water flow path 90 may be branched from the raw water flow path 10 . For example, the purified water flow path 20 may be integrally connected with the raw water flow path 10 , and the sterilizing water flow path 90 may be bypassed from the raw water flow path 10 .

In the sterilizing water flow path 90 , a sterilizing water valve 148 for controlling the inflow of raw water from the raw water flow path 10 may be provided, and a sterilizing water generating device 190 for generating sterilizing water may be provided. .

For example, the sterilizing water generating device 190 may be implemented as an electrolytic device for generating a sterilizing material by electrolyzing water.

The sterilizing water generating device 190 implemented as an electrolysis device may include a plurality of plate-shaped electrodes. When a current is supplied to the plurality of plate-shaped electrodes, chlorine contained in water flowing between the plurality of plate-shaped electrodes is electrolyzed to generate a sterilizing material having sterilizing power. For example, hypochlorous acid, which is a sterilizing material, may be generated.

However, the sterilizing water generating device 190 is not limited to the above example, and a known type of device capable of generating sterilizing water may be applied, for example, a UV (ultraviolet) lamp or LED (light). emitting diode) lamp or the like.

The sterilizing water passage 90 may be connected to the purified water passage 20 again at the rear end of the filter unit 30 provided in the purified water passage 20 . That is, the sterilizing water flow path 70 may be connected back to the purified water flow path 20 between the filter unit 30 and the water outlet nozzle 180 .

The water purifier 1 may include a body (not shown) according to an embodiment. In this case, the water outlet nozzle 180 may be provided outside the body, and the filter unit 30 , a flow path, and a valve may be provided inside the body.

In addition, according to an embodiment, the water purifier 1 may be provided under the sink in the kitchen, and the water outlet nozzle 180 may be provided above the sink.

In the above, the arrangement of components such as pipes and valves provided inside the water purifier 1 has been described in detail. Hereinafter, the control flow of the water purifier 1 will be described in detail.

2 is a control block diagram of the water purifier 1 according to an embodiment.

Referring to FIG. 2 , the water purifier 1 according to an embodiment includes a flow sensor 110 for detecting a flow rate of purified water passing through a purified water passage 20 , an input unit 120 for receiving a user input, and a filter. Control the valves 141-148; 140 included in the water purifier before and after replacement to facilitate filter replacement while a control unit 130 for cleaning the replaced filter and the entire flow path, and a plurality of flow paths provided in each flow path to open and close each flow path It includes a valve (141-148; 140), and a display 150 for displaying various information.

As described above, the flow sensor 110 according to an exemplary embodiment may detect a flow rate in the purified water passage 20 , and may be provided between the filter unit 30 and the water outlet nozzle 180 . However, the position of the flow sensor 110 is not limited to the above example, and as long as it is a position capable of sensing the flow rate of purified water filtered from the filter unit 30 , it may be employed without limitation.

The input unit 120 according to an embodiment may receive a user input. For example, the input unit 120 may receive a user input for filter replacement. To this end, the input unit 120 may be implemented as a button, a touch pad, a lever, or the like, and may be provided integrally with the water outlet nozzle 180 . However, the type and location of the input unit 120 are not limited to the above example, and any type and location capable of receiving a user's input may be employed without limitation.

The control unit 130 according to an embodiment may control the valves 141-148; 140 before and after replacing the filter to facilitate filter replacement, while cleaning the replaced filter and the entire flow path.

Specifically, the control unit 130 may control the filter water passage valve 147 to open the filter water passage passage 80 in response to receiving a user input for filter replacement. In this case, the controller 130 may control the raw water valve 141 to close the raw water flow path 10 in order to prevent the raw water from flowing through the raw water flow path 10 .

Through this, the water accumulated in the filter of the filter unit 30 is discharged to the drain port 40 through the filter water passage 80, so that the hydraulic pressure in the filter unit 30 can be removed, and the user can more easily filter the filter. can be removed and replaced.

At this time, according to the embodiment, the control unit 130 controls the filter water passage valve 147 so that the filter water passage 80 is opened for the first time, while the filter water passage 80 is opened for the first time. Thereafter, the display 150 may be controlled to output a notification instructing replacement of the filter.

The control unit 130 according to an embodiment may control the filter water passage valve 147 and the drain valve 144 to perform a cleaning cycle for the filter unit 30 and the purified water passage 20 after the filter is replaced. .

First, the control unit 130 may perform a cleaning process on the filter unit 30 after the replacement of the filter unit 30 . The control unit 130 may clean the filter unit 30 by opening the filter water passage 80 as a first step of the washing process for the filter unit 30 , and as a second step, the filter water passage 80 and drainage The filter unit 30 may be washed by opening all of the flow paths 50 . In addition, as a third step, the control unit 130 may repeat the step of performing the washing process by opening both the filter water passage 80 and the drain passage 50 as in the second step. The description of filter cleaning will be described in detail later.

The control unit 130 according to an embodiment performs a washing cycle on each of the purified water flow path 20 , the hot water flow path 60 , and the cold water flow path 70 after performing the washing cycle on the filter unit 30 , sequentially can do. At this time, the order of the washing process for each of the purified water flow path 20, the hot water flow path 60, and the cold water flow path 70 is not limited in the description below, and depending on the implementation, the washing cycle may be performed in various orders. have. The cleaning process for each flow path will be described in detail later.

The controller 130 may include a program for performing the above-described operation or an operation to be described later, at least one memory in which various data necessary for executing the program are stored, and at least one processor for executing the stored program.

The valve 140 according to an embodiment may be opened or closed according to the control of the controller 130 , thereby controlling the flow of raw water, purified water, or sterilizing water in a flow path at which it is located.

The valve 140 includes, according to an embodiment, a raw water valve 141 provided in the raw water flow path 10 , a raw water inflow control valve 142 and a purified water flow path valve 143 provided in the purified water flow path 20 ; A drain valve 144 provided in the drain passage 50 , a hot water passage valve 145 provided in the hot water passage 60 , a cold water passage valve 146 provided in the cold water passage 70 , and a filter water passage It may include a filter water passage valve 147 provided in the 80 and a sterilizing water valve 148 provided in the sterilizing water flow path 90 . A description of the control of the valve 140 will be described later in detail again.

The display 150 according to an embodiment may display various types of information. For example, the display 150 may display a notification instructing filter replacement. To this end, the display 150 may include a known type of display panel or an LED lamp, depending on the embodiment.

At least one component may be added or deleted according to the performance of the components of the water purifier 1 shown in FIG. 2 . In addition, it will be readily understood by those of ordinary skill in the art that the mutual positions of the components may be changed corresponding to the performance or structure of the system.

In the above, the components of the water purifier 1 have been described in detail. Hereinafter, it will be described in detail that the water purifier 1 removes the pressure of the filter unit 30 before replacing the filter.

3 is a diagram illustrating a case in which the water purifier 1 according to an embodiment removes the pressure of the filter unit 30 in response to a user input for replacing the filter unit, and FIG. 4 is a water purifier 1 according to an embodiment. ) is a diagram showing a case in which a notification instructing replacement of the filter unit is displayed.

Referring to FIG. 3 , the water purifier 1 according to an embodiment opens the filter water passage to remove the pressure of the filter unit 30 when receiving a paper input for filter replacement. Water in the filter of (30) can be discharged to the drain port (40).

According to an embodiment, the water purifier 1 may control the display 150 to display a notification indicating the filter replacement time when the filter replacement time comes. At this time, the controller 130 determines the filter replacement time when a preset time has elapsed after replacing the filter, or when the flow rate filtered by the filter unit 30 based on the output of the flow sensor 110 passes a preset amount You can decide when to replace the filter. However, determining the filter replacement time is not limited to the above example, and the filter replacement time may be determined according to a known method.

The water purifier 1 may receive a user input for filter replacement from a user through the input unit 120, and the filter water passage valve ( 147) can be controlled. In this case, the controller 130 may control the raw water valve 141 to close the raw water flow path 10 in order to prevent the raw water from flowing through the raw water flow path 10 .

Through this, the water accumulated in the filter of the filter unit 30 is discharged to the drain port 40 through the filter water passage 80, so that the hydraulic pressure in the filter unit 30 can be removed, and the user can more easily filter the filter. can be removed and replaced.

At this time, according to the embodiment, the control unit 130 controls the filter water passage valve 147 so that the filter water passage 80 is opened for the first time, while, as shown in FIG. 4 , the filter water passage 80 ) may control the display 150 to output a notification 400 instructing replacement of the filter after being opened for the first time.

In the above, the valve control for pressure removal in the filter unit 30 before replacing the filter has been described in detail. Hereinafter, it will be described in detail with respect to the cleaning process of the filter unit 30 after replacing the filter.

5 is a view illustrating a case in which the water purifier 1 according to an embodiment cleans the filter unit 30 by opening the filter water passage 80 after replacing the filter unit, and FIG. 6 is a filter unit according to an embodiment. It is a view showing the membrane filter 35 of 30, and FIG. 7 is a filter part ( 30) is a diagram showing the case of washing.

The control unit 130 according to an embodiment may control the filter water passage valve 147 and the drain valve 144 to perform a cleaning cycle for the filter unit 30 and the purified water passage 20 after the filter is replaced. .

First, the control unit 130 may perform a cleaning process on the filter unit 30 after the replacement of the filter unit 30 . The control unit 130 may clean the filter unit 30 by opening the filter water passage 80 as a first step of the washing process for the filter unit 30 , and as a second step, the filter water passage 80 and drainage The filter unit 30 may be washed by opening all of the flow paths 50 . In addition, as a third step, the control unit 130 may repeat the step of performing the washing process by opening both the filter water passage 80 and the drain passage 50 as in the second step.

As a first step of cleaning the filter, the control unit 130 controls the raw water valve 141 to open the raw water flow path 10 as shown in FIG. 5 , and opens the filter water flow path 80 for a second time. The filter water-through valve 142 may be controlled to do so.

Through this, the raw water obtained through the raw water flow passage 10 may pass through the filter unit 30 to wash the filter and then be discharged to the drain 40 through the filter water passage 80 . That is, the water discharged to the filter water passage 80 passes through the membrane filter 35 of the filter unit 30 , thereby removing impurities in the membrane filter 35 .

Specifically, as shown in FIG. 6 , the membrane filter 35 of the filter unit 30 includes a filter cap 500 and a filter housing 600 .

At this time, the filter cap 500 may be formed on one side of the membrane filter 35 and may have a lid shape having an inner space, and may include through-holes for connecting to each flow path. It may include a raw water inlet 510 , a purified water outlet 520 , and a drainage outlet 530 .

The raw water inlet 510 may be provided to be connected to the purified water flow path 20 on the raw water flow path 10 side to introduce raw water, and the purified water outlet 520 is connected to the purified water flow path 20 on the water outlet nozzle 180 side. It may be provided to extract purified water filtered from the filter. The drain outlet 530 may be connected to the filter water passage 80 to discharge water containing contaminants to the outside when replacing the filter.

In addition, the filter housing 600 includes an outer housing 610 and an inner housing 620 , and the outer housing 610 forms the exterior of the membrane filter 35 .

The inner housing 620 is formed to be spaced apart from the outer housing 610 and has an accommodating space therein, and may include a filter body 700 provided in the accommodating space to filter raw water.

As the washing process through the filter water passage 80 proceeds, when the filter water passage valve 147 is opened, raw water is introduced through the raw water inlet 510 of the membrane filter 35 and the filter body 700 outer surface impurities can be removed.

Water containing impurities in the filter body 700 may flow from the receiving space of the inner housing 620 to the lower opening of the inner housing 620 , and the water passing through the opening may include the inner housing 620 and the outer housing. It may flow upward again along the spaced apart space between the 610 . Through this, water may be discharged to the outside of the membrane filter 35 through the drain outlet 530 of the filter cap 500 , and may flow into the filter water passage 80 connected to the drain outlet 530 , and the drain port It may be discharged to the outside through (40).

In this way, when the filter is replaced, the control unit 130 opens the filter water passage valve 147 for a preset time (second time) in order to remove foreign substances (eg, coal dust, etc.) included in the new filter to remove raw water. The raw water introduced through the flow passage 10 passes through the membrane filter 35 to remove impurities while being transferred to the drain port 40 through the filter water passage 80 .

The water purifier 1 opens the filter water passage 80 to perform the first stage washing process on the filter unit 30, and then opens the drain passage 50 in addition to the filter water passage 80 in addition to the second step. And it is possible to perform a washing process for the filter unit 30 of the third step.

Specifically, the control unit 130 controls the filter unit 30 after the first stage washing cycle for the filter unit 30 (after the filter tube flow passage 80 is opened for a preset time (second time)). When performing the second stage of the washing cycle, as shown in FIG. 7 , the drain valve 144 is controlled to open the drain flow path 50 , and the raw water inflow control valve 142 to open the purified water flow path 20 . and controlling the water purification flow passage valve 143 and controlling the filter water passage valve 147 to open the filter water passage passage 80 for a preset time (third time).

Through this, the raw water introduced through the raw water passage 10 passes through the filter unit 30 and is discharged to the filter water passage 80 while passing through the purified water passage 20 and the drain passage 50 to be discharged. have. Accordingly, impurities and harmful substances in the filter unit 30 can pass out in both directions of the filter water passage 80 and the purified water passage 20 , so that the cleaning process of the filter unit 30 can be performed more efficiently.

In addition, the water purifier 1 opens the filter water passage 80 and the drain passage 50 to perform the second stage washing process for the filter unit 30, and then performs the third stage for the filter unit 30. As in the washing process of the second stage for the filter unit 30 as a washing stroke, the drain path 50 is additionally opened in addition to the filter water flow path 80 to perform the washing process for the filter unit 30 of the third stage. can

Specifically, the control unit 130 controls the filter unit 30 after the second stage cleaning cycle for the filter unit 30 (after the filter tube flow path 80 is opened for a preset time (third time)). When performing the third stage washing cycle, as shown in FIG. 7 , the drain valve 144 is controlled to open the drain flow path 50 , and the raw water inflow control valve 142 to open the purified water flow path 20 . and by controlling the purified water passage valve 143 and controlling the filter water passage valve 147 to open the filter water passage 80 for a preset time (fourth time). In this case, the time at which the filter water passage 80 is opened in the second step may be the same as the time when the filter water passage 80 is opened in the third step, and may be set differently depending on the embodiment.

As such, the water purifier 1 repeats the washing process for the filter unit 30 a plurality of times by additionally opening the drain channel 50 in addition to the filter water channel 80 , thereby increasing the efficiency of the washing process for the filter unit 30 . can be maximized. In the previous embodiment, it has been described that the washing process for the filter unit 30 by additionally opening the drain passage 50 in addition to the filter water passage 80 is performed twice, but according to the embodiment, the filter water passage 50 80) in addition to the additional opening of the drain passage 50 to perform the washing process on the filter unit 30 may be performed two or more times.

In the above, the washing process for the filter unit 30 has been described. Hereinafter, the washing process for the entire flow path after the washing process for the filter unit 30 will be described in detail.

8 is a view showing a case in which the water purifier 1 according to an embodiment washes the hot water flow path 60 after replacing the filter unit 30, and FIG. 30) is a view showing a case of washing the cold water flow path 70 after replacement, and FIG. 10 is a view showing a case where the water purifier 1 according to an embodiment washes the purified water flow path 20 after replacing the filter unit 30 to be.

The water purifier 1 according to an exemplary embodiment sequentially performs a washing cycle on each of the purified water passage 20 , the hot water passage 60 , and the cold water passage 70 after the cleaning operation is performed on the filter unit 30 . can do. At this time, the order of the washing process for each of the purified water flow path 20, the hot water flow path 60, and the cold water flow path 70 is not limited in the description below, and depending on the implementation, the washing cycle may be performed in various orders. have.

Specifically, as shown in FIG. 8 , the control unit 130 performs a washing cycle on the hot water flow path 60 after performing a washing cycle on the filter unit 30 , a drain valve 144 , and hot water The flow path valve 145 and the raw water inflow control valve 142 may be sequentially opened.

That is, the control unit 130 may control the drain valve 144 to open the drain flow path 50, control the hot water flow path valve 145 to open the hot water flow path 60, and the raw water to open the hot water flow path ( 60), the raw water valve 141 and the raw water inflow control valve 142 may be opened.

Through this, purified water filtered through the replaced filter unit 30 passes through the hot water flow path 60 and then is discharged to the drain 40 , thereby removing foreign substances on the hot water flow path 60 .

In addition, as shown in FIG. 9 , the control unit 130 performs a washing cycle on the cold water flow path 70 after the washing cycle on the filter unit 30 is performed. As shown in FIG. 9 , the drain valve 144 and the cold water flow path The valve 146 and the raw water inflow control valve 142 may be opened sequentially.

That is, the control unit 130 may control the drain valve 144 to open the drain flow path 50 , control the cold water flow path valve 146 to open the cold water flow path 70 , and the raw water to open the cold water flow path ( 70), the raw water valve 141 and the raw water inflow control valve 142 may be opened.

Through this, purified water filtered through the replaced filter unit 30 passes through the cold water flow path 70 and then is discharged to the drain 40 , thereby removing foreign substances on the cold water flow path 70 .

In addition, as shown in FIG. 10 , the control unit 130 performs a washing cycle on the purified water flow path 20 after performing a washing cycle on the filter unit 30 , the drain valve 144 and the purified water flow path. The valve 143 and the raw water inflow control valve 142 may be opened sequentially. In this case, the control unit 130 may open the filter water passage valve 147 to open the filter water passage passage 80 .

That is, the controller 130 may control the drain valve 144 to open the drain flow path 50 , control the purified water flow path valve 143 to open the purified water flow path 20 , and the raw water may control the purified water flow path ( 20), the raw water valve 141 and the raw water inflow control valve 142 may be opened.

Through this, purified water filtered through the replaced filter unit 30 passes through the cold water flow path 70 and then is discharged to the drain 40 , thereby removing foreign substances on the cold water flow path 70 .

In this way, the water purifier 1 performs a washing cycle for the filter unit 30 , and includes a purified water path 20 , a hot water flow path 60 and By sequentially performing the washing process for each of the cold water flow paths 70 , impurities resulting from the replacement of the filter unit 30 may be prevented from remaining in the water purifier 1 .

Hereinafter, an embodiment of a method for controlling the water purifier 1 according to an aspect will be described. As a control method of the water purifier 1 , the water purifier 1 according to the above-described embodiment may be used. Accordingly, the contents described above with reference to FIGS. 1 to 10 may be equally applied to the control method of the water purifier 1 .

11 is a flowchart of a case in which pressure is removed before replacing the filter unit 30 in the control method of the water purifier 1 according to an exemplary embodiment.

Referring to FIG. 11 , the water purifier 1 according to an embodiment controls the filter water passage valve 144 to open the filter water passage passage 80 when receiving a user input for filter replacement (Yes in 1110 ). can (1120). In this case, the controller 130 may control the raw water valve 141 to close the raw water flow path 10 in order to prevent the raw water from flowing through the raw water flow path 10 .

Through this, the water accumulated in the filter of the filter unit 30 is discharged to the drain port 40 through the filter water passage 80, so that the hydraulic pressure in the filter unit 30 can be removed, and the user can more easily filter the filter. can be removed and replaced.

At this time, according to the embodiment, the water purifier 1 controls the filter water passage valve 147 so that the filter water passage 80 is opened for a preset time (first time), while the filter water passage 80 is opened. When the preset time (the first time) has elapsed (YES in 1130), a notification 400 instructing replacement of the filter may be displayed (1140).

12 is a flowchart illustrating a case in which a washing process is performed after replacing the filter unit 30 in the control method of the water purifier 1 according to an exemplary embodiment.

Referring to FIG. 12 , the water purifier 1 according to an exemplary embodiment may perform a cleaning cycle on the replaced filter when the filter is replaced (Yes of 1210 ) ( 1220 ). In addition, when the washing process for the filter is completed ( 1230 ), the water purifier 1 may sequentially perform the washing process for each of the purified water flow path 20 , the hot water flow path 60 , and the cold water flow path 70 . (1240).

Specifically, the control unit 130 according to an embodiment controls the filter water passage valve 147 and the drain valve 144 to perform a washing cycle for the filter unit 30 and the purified water passage 20 after the filter is replaced. can do.

First, the control unit 130 may perform a cleaning process on the filter unit 30 after the replacement of the filter unit 30 . The control unit 130 may clean the filter unit 30 by opening the filter water passage 80 as a first step of the washing process for the filter unit 30 , and as a second step, the filter water passage 80 and drainage The filter unit 30 may be washed by opening all of the flow paths 50 . In addition, as a third step, the control unit 130 may repeat the step of performing the washing process by opening both the filter water passage 80 and the drain passage 50 as in the second step. The description of filter cleaning will be described in detail later.

The control unit 130 according to an embodiment performs a washing cycle on each of the purified water flow path 20 , the hot water flow path 60 , and the cold water flow path 70 after performing the washing cycle on the filter unit 30 , sequentially can do. At this time, the order of the washing process for each of the purified water flow path 20, the hot water flow path 60, and the cold water flow path 70 is not limited in the description below, and depending on the implementation, the washing cycle may be performed in various orders. have.

13 is a flowchart illustrating a case of performing a cleaning process on the filter after replacing the filter unit 30 in the control method of the water purifier 1 according to an exemplary embodiment.

Referring to FIG. 13 , the water purifier 1 according to an embodiment controls the raw water valve 141 to open the raw water flow path 10 when the filter is replaced (Yes of 1310 ) ( 1320 ), and the filter water flow path The filter water flow valve 144 may be controlled to open 80 ( 1330 ).

Through this, the raw water obtained through the raw water flow path 10 may pass through the filter unit 30 to wash the filter and then be discharged to the drain port 40 through the filter water passage 80 . That is, the water discharged to the filter water passage 80 passes through the membrane filter 35 of the filter unit 30 to remove impurities in the membrane filter 35 .

The water purifier 1 opens the filter water passage 80 to perform the first stage washing process on the filter unit 30, and then opens the drain passage 50 in addition to the filter water passage 80 in addition to the second step. And it is possible to perform a washing process for the filter unit 30 of the third step.

Specifically, the water purifier 1 operates the drain valve 144 to open the drain passage 50 when a preset time (second time) elapses after the filter water passage 80 is opened (Yes in 1340 ). control (1350), and control the raw water inflow control valve 142 and the purified water passage valve 143 to open the purified water passage 20 (1360), and set the filter water passage 80 for a preset time (third time) The filter water-through valve 147 may be controlled to be opened during operation (1370).

Through this, the raw water introduced through the raw water passage 10 passes through the filter unit 30 and is discharged to the filter water passage 80 while passing through the purified water passage 20 and the drain passage 50 to be discharged. have. Accordingly, impurities and harmful substances in the filter unit 30 can pass out in both directions of the filter water passage 80 and the purified water passage 20 , so that the cleaning process of the filter unit 30 can be performed more efficiently.

The water purifier 1, when the steps 1350 to 1380 are not performed twice (No in 1390), 1350 to 1380 in a state in which a preset time has elapsed after the filter water passage 80 is opened (Yes in 1380) may be performed again, and when the steps 1350 to 1380 are performed twice (example of 1390) in a state in which a preset time has elapsed after the filter water passage 80 is opened (example of 1380), the filter unit The washing cycle for (30) can be finished.

As such, the water purifier 1 repeats the washing process for the filter unit 30 a plurality of times by additionally opening the drain channel 50 in addition to the filter water channel 80 , thereby increasing the efficiency of the washing process for the filter unit 30 . can be maximized. In the previous embodiment, in addition to the filter water passage 80, the drain passage 50 is additionally opened to perform the washing process on the filter unit 30 twice, but according to the embodiment, the filter water passage 50 is additionally opened. 80), performing the washing process on the filter unit 30 by additionally opening the drain passage 50 may be performed two or more times.

14 is a flowchart illustrating a case of performing a cleaning cycle for the entire flow path after replacing the filter unit 30 in the control method of the water purifier 1 according to an exemplary embodiment.

Referring to FIG. 14 , the water purifier 1 according to an exemplary embodiment may perform a washing cycle on the hot water flow path 60 when the washing cycle for the filter is completed (Yes in 1410 ) ( 1420 ).

Specifically, as shown in FIG. 8 , the control unit 130 performs a washing cycle on the hot water flow path 60 after performing a washing cycle on the filter unit 30 , a drain valve 144 , and hot water The flow path valve 145 and the raw water inflow control valve 142 may be sequentially opened.

That is, the control unit 130 may control the drain valve 144 to open the drain flow path 50, control the hot water flow path valve 145 to open the hot water flow path 60, and the raw water to open the hot water flow path ( 60), the raw water valve 141 and the raw water inflow control valve 142 may be opened.

Through this, purified water filtered through the replaced filter unit 30 passes through the hot water flow path 60 and then is discharged to the drain 40 , thereby removing foreign substances on the hot water flow path 60 .

Also, the water purifier 1 according to an exemplary embodiment may perform a washing cycle on the cold water flow path 70 when the washing cycle for the hot water flow path 60 is completed (Yes in 1430 ) ( 1440 ).

Specifically, the control unit 130, the drain valve 144, the cold water flow path valve 146, and the raw water inlet to perform the washing cycle for the cold water flow path 70 after the washing cycle for the filter unit 30 is performed The control valve 142 may be opened sequentially.

That is, the control unit 130 may control the drain valve 144 to open the drain flow path 50 , control the cold water flow path valve 146 to open the cold water flow path 70 , and the raw water to open the cold water flow path ( 70), the raw water valve 141 and the raw water inflow control valve 142 may be opened.

Through this, purified water filtered through the replaced filter unit 30 passes through the cold water flow path 70 and then is discharged to the drain 40 , thereby removing foreign substances on the cold water flow path 70 .

Also, when the washing cycle for the cold water flow path 70 is completed (Yes in 1450 ), the water purifier 1 according to an exemplary embodiment may perform the washing cycle for the purified water flow path 20 ( 1460 ).

In addition, the control unit 130 controls the drain valve 144 , the purified water passage valve 143 , and the inflow of raw water so as to perform a cleaning operation on the purified water passage 20 after performing the cleaning operation on the filter unit 30 . The valve 142 may be opened sequentially. In this case, the control unit 130 may open the filter water passage valve 147 to open the filter water passage passage 80 .

That is, the controller 130 may control the drain valve 144 to open the drain flow path 50 , control the purified water flow path valve 143 to open the purified water flow path 20 , and the raw water may control the purified water flow path ( 20), the raw water valve 141 and the raw water inflow control valve 142 may be opened.

Through this, purified water filtered through the replaced filter unit 30 passes through the cold water flow path 70 and then is discharged to the drain 40 , thereby removing foreign substances on the cold water flow path 70 .

In this way, the water purifier 1 performs a washing cycle for the filter unit 30 , and includes a purified water path 20 , a hot water flow path 60 and By sequentially performing the washing process for each of the cold water flow paths 70 , impurities resulting from the replacement of the filter unit 30 may be prevented from remaining in the water purifier 1 . At this time, the order of the washing process for each of the purified water flow path 20 , the hot water flow path 60 , and the cold water flow path 70 is not limited in the above description, and depending on the implementation, the washing cycle may be performed in various orders. have.

Meanwhile, the disclosed embodiments may be implemented in the form of a recording medium storing instructions executable by a computer. Instructions may be stored in the form of program code, and when executed by a processor, may generate program modules to perform operations of the disclosed embodiments. The recording medium may be implemented as a computer-readable recording medium.

The computer-readable recording medium includes any type of recording medium in which instructions readable by the computer are stored. For example, there may be read only memory (ROM), random access memory (RAM), magnetic tape, magnetic disk, flash memory, optical data storage, and the like.

The disclosed embodiments have been described with reference to the accompanying drawings as described above. Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be practiced in other forms than the disclosed embodiments without changing the technical spirit or essential features of the present invention. The disclosed embodiments are illustrative and should not be construed as limiting.

1: water purifier 10: raw water euro
20: purified water flow path 30: filter unit
40: drain hole 50: drain flow path
60: hot water flow 70: cold water flow
80; Filter water passage 90: sterilization water passage
110: flow sensor 120: input
130: control unit 140: valve
141: raw water valve 142: raw water inflow control valve
143: water purification flow valve 144: drain valve
145: hot water flow passage valve 146: cold water flow passage valve
147: filter water valve 148: sterilizing water valve
150: display 160: heater
170: cooler 180: water outlet nozzle
190: sterilizing water generating device

Claims (20)

an input unit for receiving a user input;
a raw water flow path through which raw water flows;
a purified water passage connected to the raw water passage and provided with a water outlet nozzle;
a filter provided in the purified water passage to filter the raw water;
a drain passage branched from the purified water passage between the filter and the water outlet nozzle and connected to the drain;
a drain valve that opens and closes the drain passage;
a filter water passage having one end connected to the filter and the other end connected to the drain port;
a filter water passage valve for opening and closing the filter water passage passage; and
The filter water passage valve and the filter water passage valve are controlled to open the filter water passage passage in response to receiving a user input for filter replacement, and the filter water passage valve and the purified water passage are cleaned after the filter is replaced. A water purifier comprising a; a control unit for controlling the drain valve. According to claim 1,
The water purifier,
Further comprising; a raw water valve for opening and closing the raw water flow path;
The control unit is
In response to receiving a user input for filter replacement, the water purifier controls the raw water valve to close the raw water flow path, and controls the filter water flow valve to open the filter water flow path for a first time. 3. The method of claim 2,
The water purifier,
Display; further comprising,
The control unit is
and controlling the display to output a notification instructing replacement of the filter after the filter water passage is opened for the first time. 3. The method of claim 2,
The control unit is
A water purifier configured to control the raw water valve to open the raw water flow path and control the filter water flow valve to open the filter water flow path for a second time period for cleaning the filter after replacing the filter. 5. The method of claim 4,
The water purifier,
a raw water inflow control valve provided on the water outlet pipe side of the filter in the purified water passage to control the inflow of raw water from the raw water passage; and
The purified water passage valve is provided on the side of the water outlet nozzle of the purified water passage to control the flow of purified water in the purified water passage.
After the filter water passage is opened for the second time period, the drain valve is controlled to open the drain passage, and the raw water inflow control valve and the purified water are opened to open the purified water passage for a washing operation of the filter. A water purifier configured to control a flow passage valve and control the filter water passage valve to open the filter water passage passage for a third time period. 6. The method of claim 5,
The control unit is
After the filter water passage is opened for the third time period, the drain valve is controlled to open the drain passage for a washing operation of the filter, and the raw water inflow control valve and the purified water are opened to open the purified water passage. A water purifier configured to control a flow passage valve and control the filter water passage valve to open the filter water passage passage for a fourth time period. 6. The method of claim 5,
The water purifier,
heater;
cooler;
a hot water flow path branched from the purified water flow path and connected back to the purified water flow path through the heater;
a cold water flow path branched from the purified water flow path and connected back to the purified water flow path through the cooler;
a hot water flow valve for opening and closing the hot water flow path; and
A cold water flow path valve for opening and closing the cold water flow path; further comprising,
The control unit is
A water purifier that sequentially performs a washing process on each of the purified water passage, the hot water passage, and the cold water passage after the cleaning operation is performed on the filter. 8. The method of claim 7,
The control unit is
A water purifier configured to sequentially open the drain valve, the hot water flow passage valve, and the raw water inflow control valve to perform a washing process on the hot water flow path. 8. The method of claim 7,
The control unit is
A water purifier configured to sequentially open the drain valve, the cold water flow path valve, and the raw water inflow control valve to perform a washing cycle on the cold water flow path. 8. The method of claim 7,
The control unit is
control the drain valve to open the drain flow path to perform a washing operation on the purified water flow path, control the raw water inflow control valve and the purified water flow path valve to open the purified water flow path, and open the filter water flow path A water purifier that controls the filter water flow valve to do so. In the control method of a water purifier comprising: an input unit for receiving a user input; a raw water flow path through which raw water is introduced; ,
controlling a filter pass-through valve for opening and closing the filter water passage to open a filter water passage including one end connected to the filter and the other end connected to the drain in response to receiving a user input for filter replacement;
Controls a drain valve that opens and closes the filter water passage valve and the water purification passage between the filter and the water outlet nozzle and opens and closes the drain passage connected to the drain port so as to perform a cleaning cycle for the filter and the purified water passage after the filter is replaced A control method of a water purifier comprising; 12. The method of claim 11,
The water purifier,
Further comprising; a raw water valve for opening and closing the raw water flow path;
Controlling the filter water passage valve to open the filter water passage passage,
in response to receiving a user input for filter replacement, control the raw water valve to close the raw water flow path;
and controlling the filter water passage valve to open the filter water passage passage for a first time. 13. The method of claim 12,
The water purifier,
Display; further comprising,
and controlling the display to output a notification instructing replacement of the filter after the filter water passage is opened for the first time. 13. The method of claim 12,
Performing a washing process for the filter is,
controlling the raw water valve to open the raw water flow path for a cleaning operation of the filter after replacing the filter;
and controlling the filter water passage valve to open the filter water passage passage for a second time period. 15. The method of claim 14,
The water purifier,
a raw water inflow control valve provided on the water outlet pipe side of the filter in the purified water passage to control the inflow of raw water from the raw water passage; and
The purified water passage valve is provided on the side of the water outlet nozzle of the purified water passage to control the flow of purified water in the purified water passage.
Performing a washing process for the filter is,
After the filter water passage is opened for the second time period, the drain valve is controlled to open the drain passage, and the raw water inflow control valve and the purified water are opened to open the purified water passage for a washing operation of the filter. control the flow valve;
and controlling the filter water passage valve to open the filter water passage passage for a third time period. 16. The method of claim 15,
Performing a washing process for the filter is,
controlling the drain valve to open the drain passage for a washing operation of the filter after the filter water passage is opened for the third time;
controlling the raw water inflow control valve and the purified water passage valve to open the purified water passage;
and controlling the filter water passage valve to open the filter water passage passage for a fourth time period. 16. The method of claim 15,
The water purifier,
heater;
cooler;
a hot water flow path branched from the purified water flow path and connected back to the purified water flow path through the heater;
a cold water flow path branched from the purified water flow path and connected back to the purified water flow path through the cooler;
a hot water flow valve for opening and closing the hot water flow path; and
A cold water flow path valve for opening and closing the cold water flow path; further comprising,
Performing a washing process for the purified water passage is,
and sequentially performing a washing cycle on each of the purified water passage, the hot water passage, and the cold water passage after performing the cleaning operation on the filter. 18. The method of claim 17,
Performing a washing process for the hot water flow path,
and sequentially opening the drain valve, the hot water flow path valve, and the raw water inflow control valve to perform a washing process on the hot water flow path. 18. The method of claim 17,
Performing a washing process for the cold water flow path,
and sequentially opening the drain valve, the cold water flow path valve, and the raw water inflow control valve to perform a washing cycle on the cold water flow path. 18. The method of claim 17,
Performing a washing process for the purified water passage is,
controlling the drain valve to open the drain flow path so as to perform a washing cycle on the purified water flow path;
controlling the raw water inflow control valve and the purified water passage valve to open the purified water passage;
and controlling the filter water passage valve to open the filter water passage passage.

Images