KR101686131B1 - Water purifier for automatic sterilization - Google Patents

Abstract

An exemplary embodiment of the present invention provides an automatic sterilization and purification apparatus. The automatic sterilization and purification system according to this embodiment is characterized in that it comprises: i) a filter system for purifying the raw water, ii) a purified water tank for storing the purified water through which the raw water has passed through the filter system, and iii) And iv) an integer line connecting the filter system and the purified water tank, wherein the purified water circulated through the circulation unit is electrically connected to the filter tank, A sterilization module for making the sterilization water according to the signal, and v) an integer mode of raw water by the filter system, a sterilization mode of the sterilization module by the sterilization module and the circulation unit, and an integer mode of sterilization by the filter system and the circulation unit As shown in FIG.

Description

[0001] WATER PURIFIER FOR AUTOMATIC STERILIZATION [0002]

An exemplary embodiment of the present invention relates to an automatic sterilization and purification apparatus, and more particularly, to an automatic sterilization and purification apparatus capable of sterilizing a storage space and a discharge passage of a purified water.

In general, a water purifier is divided into a hollow fiber membrane type and a reverse osmosis membrane type according to the purification method, and reverse osmosis membrane method is widely used among them.

This reverse osmosis membrane type water purifier is known to be superior to other purification methods developed so far in the removal of contaminants.

The reverse osmosis membrane type water purifier uses a sediment filter to remove suspended solids and other solid substances contained in the raw water and remove taste, color, chlorine and other toxic substances through a pre-carbon filter, and then through a reverse osmosis membrane filter, It removes fine organic and inorganic substances such as other metal ions and bacteria.

The water thus treated is stored in a purified water tank through a post-carbon filter for reliable antimicrobial treatment.

Such a reverse osmosis membrane type water purifier suffers from the problem that the post-carbon filter is easily contaminated by bacteria and the bacteria are introduced into the purified water tank, so that microorganisms are replanted in the purified water tank.

However, in the prior art, a separate sterilizing agent is added to sterilize the microorganisms propagated in the purified water tank to sterilize the purified water tank and purified water discharge flow path. Such a sterilization method uses a sterilizing agent to cool the water tank and the like offline The sterilization management of the water purifier is inefficient and the reliability of the water purifier is deteriorated.

The exemplary embodiments of the present invention have been made to solve the above-mentioned problems, and the present invention has been made in view of the above problems, and it is an object of the present invention to provide an automatic sterilization Thereby providing a water purification apparatus.

To this end, the automatic sterilization and water purification system according to the exemplary embodiment of the present invention comprises: i) a filter system for purifying raw water, ii) a purified water tank for storing the purified water through which the raw water passes through the filter system, and iii) A circulation unit connected to the system and the purified water tank for circulating purified water stored in the purified water tank to the filter system; and iv) an integer line for connecting the filter system and the purified water tank, A sterilizing module that converts the purified water into sterilized water according to an electrical signal, and v) a sterilization mode of raw water by the filter system, an sterilization mode of the water by the sterilization module and the circulation unit, And a control unit for controlling the integral mode of sterilization water.

In the automatic sterilization and purification apparatus, in the sterilization water purification mode, the control unit applies an off signal to the sterilization module, and the filter system is capable of filtering sterilizing water of sterilized water circulated through the circulation unit .

In the automatic sterilization and purification apparatus, the circulation unit may include a drain line connecting the purified water tank and the filter system and discharging purified water stored in the purified water tank, and a circulation pump installed in the drain line.

In the automatic sterilization and purification apparatus, the sterilization module may be an electrolytic sterilizer for electrolyzing the purified water to produce an oxidizing mixed material.

In the automatic sterilization and purification apparatus, the filter system may include a pretreatment filter, a reverse osmosis membrane filter, and a post carbon filter, which are sequentially connected through purified water lines.

In the automatic sterilization and purification apparatus, the sterilization module may be configured in an integer line connecting the post carbon filter and the purified water tank.

In the automatic sterilization and purification apparatus, the reverse osmosis membrane filter may be connected to the post carbon filter through an integer line, and the drain line may be connected to the integer line.

In the automatic sterilization and purification apparatus, the circulation unit may include a first flow path switching valve installed at a connection point between the integer line and the drain line.

In the automatic sterilization and purification apparatus, the reverse osmosis membrane filter may be connected to a discharge line for discharging domestic water generated during filtration of raw water, and a discharge valve may be installed in the discharge line.

In the automatic sterilization and purification apparatus, the first flow path switching valve may be connected to the discharge line through a connection line, and the second flow path switching valve may be installed in the connection line.

In the automatic sterilization and purification apparatus, the first flow path switching valve may be a four-way valve, and the second flow switching valve may be a two-way valve.

In the automatic sterilization and purification apparatus, the purified water tank may be divided into first and second storage sections communicating with each other in a vertical direction.

In the automatic sterilization and purification apparatus, the first storage unit may include a water level sensor for sensing the level of purified water.

In the automatic sterilization and purification apparatus, the second storage unit may include a cooling unit for cooling the purified water below the first storage unit.

In the automatic sterilization and purification system, the purified water line of the filter system may be provided with a raw water shutoff valve for selectively shutting off the supply of raw water and a flow rate sensing unit for sensing the flow rate of raw water.

In the automatic sterilization and purification apparatus, in the sterilization mode, the control unit may apply an electrical signal to the sterilization module and the circulation pump.

In the automatic sterilization and purification apparatus, in the sterilization water purification mode, the control unit may apply an OFF signal to the sterilization module and apply an ON signal to the circulation pump.

According to the automatic sterilization and purification system of the present invention as described above, unlike the conventional art in which a sterilizing agent or the like is added to sterilize a purified water tank or the like by an offline service, the purified water purified by the filter system The inner wall of the water tank and the flow path can be automatically sterilized by circulating the sterilized water to the filter system.

Therefore, in the present embodiment, the number of bacteria entering the storage tank can be minimized, so that the amount of bacteria capable of propagating in the storage tank can be minimized and bacteria that may be present in the filter system can be sterilized Lt; / RTI >

In this embodiment, since the inner wall and the flow path of the purified water tank can be automatically sterilized by circulating the sterilized water to the filter system, sterilization management of the water purification apparatus is convenient and reliability of the apparatus can be improved.

Also, in this embodiment, since the sterilizing water can be used as the purified water while circulating the sterilized water to the filter system, the amount of water discharged to sterilize the storage tank and the flow path can be minimized.

These drawings are for the purpose of describing an exemplary embodiment of the present invention, and therefore the technical idea of the present invention should not be construed as being limited to the accompanying drawings.
1 is a block diagram schematically showing an automatic sterilization and purification apparatus according to an exemplary embodiment of the present invention.
2A to 2C are block diagrams for explaining the operation of the automatic sterilization and purification apparatus according to the exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. .

1 is a block diagram schematically showing an automatic sterilization and purification apparatus according to an exemplary embodiment of the present invention.

Referring to the drawings, an automatic sterilization and purification apparatus 100 according to an exemplary embodiment of the present invention purifies raw water as a target water to be introduced through a raw water supply unit W through various filters, And a low water purifier capable of storing the water in a separate storage space and discharging the water to the outside.

In this embodiment, the water purification apparatus 100 is provided as a reverse osmosis membrane type water purifier. The reverse osmosis membrane filter 13 (also commonly called a "membrane filter" in the art), which will be described later, Or the like, to remove particulate impurities, heavy metals, and other harmful substances contained in the raw water.

The automatic sterilization and purification apparatus 100 according to the present embodiment can generate purified germicidal and oxidative mixed materials through electrolysis by passing purified water through a water filter without adding a separate sterilizing agent, And sterilizing the whole purified water which has already been stored, discharging the sterilized water from the storage space, and sterilizing the storage space and the discharge passage of the purified water.

In addition, the automatic sterilization and purification apparatus 100 according to the present embodiment circulates the sterilized water stored in the storage space to the water filter to remove the sterilizing material, sterilize the water filter, And can be used again.

The automatic sterilization and purification apparatus 100 according to the exemplary embodiment of the present invention basically includes a filter system 10, a purified water tank T, a circulation unit 30, a sterilization module 50, And a control unit 90. The detailed description will be made as follows.

In the present embodiment, the filter system 10 is for filtering and purifying the raw water sequentially. Basically, the pretreatment filters 11, the reverse osmosis membrane filter 13 and the post-carbon filter 14 .

The pre-treatment filters 11, the reverse osmosis membrane filter 13, and the post-carbon filter 14 are provided with a filter case having a filter element therein and an outer case for housing the filter case, Wherein the raw water is filtered by the filter element inside the filter case and then exits to the outside of the external case.

In this case, the pre-treatment filters 11 may include a sediment filter and a pre-carbon filter, which are separately configured, and may be provided as a composite filter in which the sediment filter and the pre-carbon filter are combined into a single filter body .

The pretreatment filter 11 is connected to the raw water supply unit W through a first positive line L1. The sediment filter supplies raw water from the raw water supply unit W to a relatively large particle phase And adsorbs and removes solid matters such as suspended solids, sand, and the like.

Here, the first positive line L1 is provided with a raw water shutoff valve WV for selectively shutting off the raw water supplied from the raw water supply unit W.

In the pretreatment filter 11, the pre-carbon filter is connected to a sediment filter. Water supplied through the sediment filter is supplied to the pretreatment filter 11 to remove volatile organic compounds, carcinogens, synthetic detergents , Pesticides and other harmful chemicals and chlorine components will be removed.

The reverse osmosis membrane filter 13 receives water from the pre-carbon filter and removes fine organic and inorganic substances such as bacteria and heavy metals and other metal ions contained in the water through the membrane having fine pores. To the preprocessing filter 11. The pre-

Here, the reverse osmosis membrane filter 13 is connected to a discharge line dL for discharging domestic water generated during filtration of raw water, that is, wastewater (commonly referred to as "concentrated water" dL) is provided with a discharge valve (dV) for controlling discharge of domestic water.

The post-carbon filter 14 is connected to the reverse osmosis membrane filter 13 through the third positive line L3 and connected to the purified water tank T to be described later through the fourth positive line L4. , And adsorbs and removes unpleasant taste, smell, pigment, etc. of the filtered water through the reverse osmosis membrane filter (13).

Since the construction of the water filter of the filter system 10 is well known in the art, a detailed description thereof will be omitted herein.

Since the reverse osmosis membrane filter 13 purifies the water through the membrane having fine pores, the filter system 10 is provided with a pressure pump (not shown) capable of supplying water as the pumping pressure to the reverse osmosis membrane filter 13 ).

The pressurizing pump may be a booster pump of a conventional structure applied to a reverse osmosis membrane type water purifier. However, it is needless to say that the pressurizing pump may be eliminated according to the pressure of the raw water supplied from the raw water supply part W.

In the filter system 10, the first positive line L1 is provided with a flow rate sensing unit 23 for sensing the flow rate of the raw water. The flow rate sensing unit 23 is connected to the first positive line L1, And a low pressure switch (LPS) for detecting the water pressure and supplying the pumping voltage to the pressure pump when the water pressure is equal to or higher than a proper water pressure.

That is, the flow rate sensing unit 23 detects the hydraulic pressure of the first positive line L1 and outputs the detection signal to the control unit 90, which will be described later, Compares the water pressure with the predetermined water pressure, and applies the pumping voltage to the pressure pump mentioned above when the water pressure is equal to or higher than the predetermined water pressure.

In the present embodiment, the purified water tank T passes through the filter system 10 and stores the purified water and selectively discharges the purified water. The post-carbon filter 14, through the fourth positive line L4, Lt; / RTI >

Herein, the purified water tank T may store sterilized water generated through the sterilization module 50, which will be described later. Before describing the configuration of the sterilization module 50, .

Specifically, the purified water tank T passes through the filter system 10 and stores a purified water purified water and a cold water cooled part of the water purified water T, 1 storage unit 71 and a second storage unit 72 for forming a storage space for storing the cold constant. It is obvious that the water tank T can be formed as a storage space for storing only ordinary integers.

The first and second storage units 71 and 72 are connected to each other in a vertical direction. The first storage unit 71 is located on the upper side and the second storage unit 72 is connected to the first storage unit 71).

Here, the first and second storage units 71 and 72 are partitioned in a vertical direction through barrier ribs (not shown) and communicated with each other.

The first storage unit 71 is provided with water level sensors 75a and 75b for sensing the level of the constant and outputting the detection signal to the control unit 90. [ The water level sensors 75a and 75b can be classified into a lower limit sensor 75a for detecting a lower limit level of an integer and a upper limit sensor 75b for detecting an upper limit level of an integer in the first storage unit 71. [

In this case, the raw water shutoff valve WV mentioned above is determined by the water level sensors 75a and 75b to perform the valve operation. When the water level is full in the first storage part 71, the signal from the upper limit sensor 75b Is closed by the control unit 90 to be described later and can be opened by the control unit 90 when a signal is inputted from the lower limit sensor 75a.

The second storage unit 72 is provided with a cooling unit 73 for cooling the purified water flowing from the first storage unit 71. The cooling unit 73 may be a cooling coil .

A first water intake line 78a for discharging common water is connected to the first storage unit 71 and a second water intake line 78b for discharging cold water is connected to the second storage unit 72 , These withdrawal lines 78a, 78b can be connected to the withdrawal cock 79.

In this embodiment, the circulation unit 30 is for circulating the purified water stored in the purified water tank T to the post-carbon filter 14 of the filter system 10, and the post-carbon filter 14 and the purified water tank T As shown in FIG.

The circulation unit 30 includes a drain line 31, a circulation pump 33 and a first flow path switching valve 35. The drain line 31 is connected to the purified water tank T, Connect the carbon filter (14).

The drain line 31 is for discharging the purified water stored in the purified water tank T to the post carbon filter 14 and is connected to the third positive line L3 for connecting the reverse osmosis membrane filter 13 and the post carbon filter 14, Lt; / RTI >

The circulation pump 33 is provided as a pump of a conventional structure capable of feeding the purified water stored in the purified water tank T to a post-carbon filter 14 through a drain line 31 as a predetermined pumping pressure.

The first flow path switching valve 35 is installed at the connection point between the third positive line L3 and the drain line 31 as described above. To the discharge line (dL) of the reverse osmosis membrane filter (13).

That is, the first flow path switching valve 35 is connected to the reverse osmosis membrane filter 13, the post carbon filter 14, the circulation pump 33, and the connection line 36, and the control unit 90, Way valve having a conventional structure capable of selectively opening and closing these connecting flow paths while operating by the four-way valve.

A second flow path switching valve 39 may be provided in the connection line 36. The second flow path switching valve 39 may be a two-way valve that selectively opens and closes the flow path of the connection line 36. [ As a 2-way valve.

The first and second flow path switching valves 35 and 39 are provided as a direction switching valve that rotates the valve spool according to an electrical signal from the control unit 90 and can change the flow path.

In this embodiment, the sterilization module 50 electrolyzes the purified water passing through the post-carbon filter 14 while discharging the purified water from the purified water tank T through the circulation unit 30 to produce a germicidal material, T). ≪ / RTI >

The sterilization module 50 is constituted by a fourth positive line L4 connecting the post carbon filter 14 and the purified water tank T and electrolyzes purified water according to an electrical signal to form an oxidizing mixed material MO, Mixed Oxidant). ≪ / RTI >

In other words, the sterilization module 50 is a sterilization module in which an oxidizing mixed material that performs a sterilizing action by passing water between electrodes having different polarities, such as chlorine, residual chlorine, ozone, OH radical, oxygen radical, Reactions are complex.

Here, the sterilizing module 50 comprises an electrolytic sterilizer including a positive electrode and a negative electrode opposing to each other, and an electrode holder for fixing the positive electrode and the negative electrode. Since the electrolytic sterilizer is well known in the art, A detailed description of the configuration will be omitted.

In the present embodiment, the control unit 90 is for controlling all operations of the water purification apparatus 100, and more specifically, it controls the operation mode of the water purification apparatus 100 in the integer mode of the raw water by the filter system 10 The sterilization mode of the purified water by the circulation unit 30 and the sterilization module 50 and the integral mode of the sterilization number by the filter system 10 and the circulation unit 30. [

That is, the control unit 90 controls the purification of the raw water by the filter system 10 during the set time in the integer mode of raw water.

In the sterilization mode of the purified water, the control unit 90 stops the filtering process of the raw water during the set time, and at the same time, cleans the purified water stored in the purified water tank T through the circulation unit 30, And controls the series of operations in which the sterilizing module 50 is operated to make the purified water sterilizing water and store it in the purified water tank T. [

The sterilization module 50 is also operated by the control unit 90 so that sterilizing water stored in the purified water tank T can be sent through the circulation unit 30 to the post The carbon filter 14, filters the germicidal material of sterilized water, and stores the filtered purified water in the purified water tank T. [

In this case, the control unit 90 controls the operation of the water purifier (not shown) by a conventional memory unit (not shown) storing the set time required for operation in each operation mode or the logic of various data values according to the operation switch signal (100).

Then, the control unit 90 controls the operation of the valves and the pumps by applying control signals to the above-mentioned valves and pumps in accordance with a predetermined time or a switching signal.

Hereinafter, the operation of the automatic sterilization and purification apparatus 100 according to the exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2A to 2C are block diagrams for explaining the operation of the automatic sterilization and purification apparatus according to the exemplary embodiment of the present invention.

2A, in the integer mode of the water purification apparatus 100 by the control unit 90, the control unit 90 controls the circulation pump 33 of the circulation unit 30 and the circulation pump 33 of the sterilization module 50, (OFF) signal.

The first flow path switching valve 35 opens the third positive line L3 which is the connection path between the reverse osmosis membrane filter 13 and the post carbon filter 14 as an operation by the control unit 90, (31) and the connection line (36) are closed. Then, the second flow path switching valve 39 is closed by the control unit 90.

In the integer mode of the raw water as described above, the raw water supplied from the raw water supply unit W is supplied to the preprocessing filter 11 through the first positive line L1. At this time, the raw water shutoff valve WV is in the open state by the control unit 90.

At this time, when raw water flows into the first positive line L1, the flow rate is detected in the flow rate sensing unit 23 so that a pressurizing pump (not shown) can be operated.

Therefore, in the pretreatment filter 11, the sediment filter supplies the raw water from the raw water supply unit W, and adsorbs and removes the solid matter such as floating matters and sand on the relatively large particles contained in the raw water.

The water passing through the sediment filter is supplied as a free carbon filter. In the free carbon filter, a chemical substance harmful to the human body such as volatile organic compounds, carcinogens, synthetic detergents, insecticides, Remove the chlorine component and so on.

Next, the water having passed through the free carbon filter is supplied to the reverse osmosis membrane filter 13 through the second integer line L2. At this time, the discharge line dL of the reverse osmosis membrane filter 13 is in the open state as the operation of the discharge valve dV.

In this state, the reverse osmosis membrane filter 13 removes heavy organic and inorganic substances such as bacteria and heavy metals and other metal ions contained in the water through the membrane having fine pores.

Here, the concentrated water generated during filtration of water by the reverse osmosis membrane filter 13 is discharged to the domestic water through the discharge line dL.

Next, the water having passed through the reverse osmosis membrane filter 13 is supplied to the post-carbon filter 14 through the third positive line L3. Then, the post-carbon filter 14 adsorbs and removes unpleasant taste, smell, pigment, etc. of water.

Finally, the constant passing through the post-carbon filter 14 passes through the sterilizing module 50 through the fourth positive line L4 and is supplied to the first storage portion 71 of the purified water tank T, And is stored in the second storage portion 72 in a state of being cooled by the cooling unit 73. [

Such an integer process is performed according to a control signal supplied from the control unit 90 and applied from the control unit 90, the detection signal output from the lower limit sensor 75a of the first storage unit 71. [

The upper limit sensor 75b of the first storage unit 71 senses the level of the purified water and outputs the detection signal to the control unit 90 when the first storage unit 71 is full of constants.

Then, the control unit 90 receives the detection signal from the upper limit sensor 75b, and when the water level of the purified water is determined to be equal to or higher than the predetermined level, the control unit 90 closes the first positive line L1 through the raw water shutoff valve WV The integer mode of the water purification apparatus 100 is switched to the stop mode.

On the other hand, the water purification apparatus 100 according to the present embodiment is switched to the water sterilization mode according to the setting time or the user's selection. The operation in the water sterilization mode will be described with reference to FIG. 2B.

2B, in the water sterilization mode of the water purification apparatus 100, the control unit 90 controls the circulation pump 33 and the sterilization module 30 of the circulation unit 30, (ON) signal to the signal line 50.

The first flow path switching valve 35 opens the connection flow path of the post-carbon filter 14 and the drain line 31 as an operation by the control unit 90 and the connection flow path of the reverse osmosis membrane filter 13, And closes the connecting flow path of the 2-flow switching valve 39. At this time, the second flow path switching valve 39 is closed by the control unit 90.

In the above sterilization mode, the circulation pump 33 discharges the purified water stored in the purified water tank T through the drain line 31 as a pumping pressure, and sends the purified water to the post-carbon filter 14 .

Then, the purified water passes through the post-carbon filter 14 and is supplied to the sterilizing module 50. In the sterilizing module 50, water is passed between the electrodes of different polarities, thereby sterilizing or extinguishing the microorganisms remaining in the water, (Hereinafter referred to as a "germicidal substance" for convenience) at a high concentration for sterilizing action.

The sterilizing material generated by the sterilizing module 50 is introduced into the purified water tank T through the fourth positive line L4.

In this sterilization mode, the purified water is sterilized at a relatively low flow rate of about 20 minutes, for example, at a flow rate of 100 ml / min. The numerical limitation is to consider the total diffusion of the purified water tank (T) This is an example in which the time for reaching the concentration of the germicide of the germicide is shown.

Therefore, in this embodiment, the purified water stored in the purified water tank T can be made into sterilized water having a predetermined concentration through the process of generating the sterilized water, and the sterilized water can be stored in the purified water tank T.

On the other hand, after a certain period of time, when the sterilization mode of the purified water is completed, the control unit 90 turns the water purification apparatus 100 into the purified water sterilization mode, (OFF) signal.

In the constant mode of the sterilization water according to the present embodiment, sterilization water stored in the purified water tank T passes through the post-carbon filter 14 through the process described above. In this process, Is removed by the carbon filter (14).

The circulation process of the sterilized water circulates sterilized water for about 40 minutes at a constant flow rate, for example, about 3 to 4 cycles at a flow rate of 500 ml / min.

In this embodiment, the sterilization water is circulated to sterilize the inner wall of the purified water tank T and the discharge flow path, thereby sterilizing bacteria that may be present in the activated carbon of the post-carbon filter 14.

Accordingly, in this embodiment, it is possible to sterilize the inside and purified water discharge passages of the purified water tank T through the above-described process in the sterilization water constant mode, and the sanitizing material is purified through the post- The purified water is filled in the purified water tank T and is ready for drinking.

That is, the total dissolved solids (TDS) of the influent water and the effluent water for the post-carbon filter 14 can be kept constant at 0 ppm through the sterilization water purification process.

In this embodiment, the sterilization water stored in the purified water tank T is discharged to the living water through the discharge line dL of the reverse osmosis membrane filter 13, as shown in FIG. 2C, after passing through the above- You may.

Specifically, in the present embodiment, in the state in which the ON signal is continuously applied to the circulation pump 33 through the control unit 90, the operation of the first flow path switching valve 35 by the control unit 90 The connecting flow path of the drain line 31 and the connecting line 36 is opened and the connecting flow path of the reverse osmosis membrane filter 13 and the post carbon filter 14 is closed and the second flow path switching valve 39 is opened.

The sterilized water stored in the purified water tank T is then pumped through the drain line 31 and the connection line 36 by the pumping pressure of the circulation pump 33 and the drain line dL of the reverse osmosis membrane filter 13, And can be discharged to domestic water through

Here, the amount of sterilized water discarded in the drinking water is correlated with the degree of generation of the sterilizing substance and the concentration of the sterilizing substance in the storage tank (T), but it is preferable that the sterilization water does not exceed 500 ml at a time. It can induce the perception that it is being discarded.

As described above, according to the automatic sterilization and purification apparatus 100 according to the exemplary embodiment of the present invention, sterilizing water is generated using purified water by the filter system 10, The inner wall of the purified water tank T and the flow path can be sterilized.

Therefore, in this embodiment, the number of bacteria entering the storage tank T can be minimized, so that the amount of bacteria capable of propagating in the storage tank T can be minimized, Germs that can be sterilized can be sterilized by sterilizing water.

In this embodiment, since sterilizing water can be used as the purified water while circulating the sterilized water to the filter system 10, the amount of water discharged to sterilize the storage tank T and the flow path can be minimized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

10 ... Filter system 11 ... Pretreatment filters
13 ... Reverse osmosis membrane filter 14 ... Post carbon filter
23 ... Flow sensing unit 30 ... Circulation unit
31 ... Drainage line 33 ... Circulation pump
35 ... The first flow path switching valve 36 ... Connection line
39 ... The second flow path switching valve 50 ... Sterilization module
71. First storage unit 72 ... The second storage unit
73 ... Cooling unit 90 ... The control unit
T ... Water tank W ... Source water supplier

Claims (13)

A filter system for purifying raw water;
A purified water tank in which the raw water passes through a filter system and stores purified purified water;
A circulation unit connected to the filter system and the purified water tank for circulating purified water stored in the purified water tank to the filter system;
An electrolytic sterilizer configured in an integer line connecting the filter system and the purified water tank and electrolyzing the purified water circulated through the circulation unit according to an electric signal to produce an oxidizing mixed material as a sterilizing material; And
A control unit for controlling an integer mode of raw water by the filter system, a sterilization mode of the purified water by the sterilization module and the circulation unit, and an integral mode of the sterilization number by the filter system and the circulation unit,
Wherein the sterilizing module is configured in an integer line connecting the post-carbon filter of the filter system and the purified water tank,
The circulation unit includes:
A drain line connecting the purified water tank and the post carbon filter of the filter system and discharging the purified water stored in the purified water tank, a circulation pump installed in the drain line, and a first flow path switching valve installed in the drain line ,
In the sterilization water purification mode,
Wherein the control unit applies an off signal to the sterilization module and the filter system filters sterile water of sterile water circulated through the circulation unit. delete delete delete The method of claim 1, wherein
Wherein the filter system comprises a pre-treatment filter, a reverse osmosis membrane filter, and a post-carbon filter sequentially connected through an integer line. 6. The method of claim 5,
Wherein the reverse osmosis membrane filter is connected to the post carbon filter through an integer line and the drain line is connected to the integer line. The method according to claim 6,
The circulation unit includes:
And a first flow path switching valve installed at a connection point between the integer line and the drain line. 8. The method of claim 7,
The reverse osmosis membrane filter is connected to a discharge line for discharging domestic water generated during filtration of raw water, a discharge valve is installed in the discharge line,
Wherein the first flow path switching valve is connected to the discharge line through a connection line, and the second flow path switching valve is installed in the connection line. 9. The method of claim 8,
Wherein the first flow path switching valve is a four-way valve, and the second flow path switching valve is a two-way valve. The method according to claim 1,
Wherein the purified water tank is divided into first and second storage portions communicating with each other in a vertical direction,
Wherein the first storage unit includes a water level sensor for sensing a water level of the purified water,
And the second storage unit includes a cooling unit for cooling the purified water below the first storage unit. 6. The method of claim 5,
Wherein the purified water line of the filter system is provided with a raw water shutoff valve for selectively shutting off the supply of raw water and a flow rate sensing unit for sensing the flow rate of the raw water. The method according to claim 1,
In the water sterilization mode,
Wherein the control unit applies an electrical signal to the sterilization module and the circulation pump. 13. The method of claim 12,
In the sterilization water purification mode,
Wherein the control unit applies an OFF signal to the sterilization module and applies an ON signal to the circulation pump.

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