KR20110085099A - Refrigerator - Google Patents

Abstract

PURPOSE: A refrigerator is provided to sterilize and clean the inside a water storage member by supplying oxygenated water to the water storage member. CONSTITUTION: A refrigerator comprises a cabinet, a door, a dispenser, a water supply path(200), a water storage member(210), a cleaning member, and a controller. A storage space is formed in the cabinet. The door opens and closes the storage space. The dispenser is formed in the door and discharges water or ice to the outside. The water supply path connects the dispenser and a reservoir. The water storage member stores water supplied to the dispenser. The cleaning unit generates oxygenated water by electrically decomposing the supplied water and cleans the water storage member and the water supply path using the oxygenated water. The controller is electrically connected to the cleaning unit and operates the cleaning unit.

Description

Refrigerator {refrigerator}

This embodiment relates to a refrigerator.

In general, a refrigerator is a home appliance that allows food to be stored at a low temperature in an interior storage space shielded by a door, and is stored by cooling the inside of the storage space using cold air generated through heat exchange with a refrigerant circulating in a refrigeration cycle. It is configured to keep foods in optimal condition.

Such refrigerators are becoming larger and more versatile as the dietary changes and user's preferences are diversified, and various configurations are added for the convenience of users.

For example, recently, a refrigerator equipped with a dispenser for discharging ice or purified water produced in the refrigerator from the outside without opening the door has been released. Such a dispenser is provided outside the door of the refrigerator, and configured to take out ice ice from the ice making apparatus provided in the refrigerator by an external operation of the user.

The dispenser receives water from a water tank provided therein. In the detachable structure, the water tank may be filled with water by desorption, and in the non-removable structure, the water tank is directly connected to the water and filled with water.

In such conventional refrigerators, it is difficult to sterilize or clean the inside of the water tank. In particular, in the case of the structure directly connected to the tap water there is a problem that the sterilization and cleaning of the inside of the water tank is impossible.

An object of the present embodiment is to provide a refrigerator capable of cleaning at least a portion of the water supply passage and the inside of the water storage member in a state in which the water storage member is mounted.

A refrigerator according to the present embodiment includes a cabinet in which a storage space is formed; A door for opening and closing the storage space; A dispenser provided in the door and for discharging water or ice to the outside; A water supply passage connecting the dispenser and a water supply source; A water storage member provided on the water supply passage and storing water supplied to the dispenser; A washing unit provided on the water supply passage, and generating hydrogen peroxide by electrolyzing the supplied water to clean at least a portion of the water storage member and the water supply passage; And a controller electrically connected to the cleaning unit to operate the cleaning unit during the cleaning operation.

According to the proposed embodiment, water inside the water storage member is supplied to the cleaning unit, and is electrolyzed to generate hydrogen peroxide water. Then, the generated hydrogen peroxide water is supplied back to the water storage member to sterilize and clean the inside of the water storage member.

In addition, the hydrogen peroxide water may be sterilized and washed as well as a part of the water supply passage connected to the inside of the water storage member as well as the water supply passage discharged to the dispenser through the water storage member.

Therefore, it is possible to easily sterilize and clean the water storage member without removing the water storage member. In addition, there is an advantage of providing safer and higher quality water by sterile cleaning of the water storage member.

1 is a perspective view of a refrigerator according to a first embodiment.
2 is a front view of the door of the refrigerator according to the first embodiment opened.
3 is a perspective view of the cleaning unit according to the first embodiment mounted on the water storage member.
4 is a perspective view schematically showing the cleaning unit body according to the first embodiment.
5 is a block diagram illustrating a signal flow of the refrigerator according to the first embodiment.
6 is a block diagram illustrating water flow in the refrigerator according to the first embodiment.
7 is a perspective view of the door of the refrigerator according to the second embodiment closed.
8 is a front view of the door of the refrigerator according to the second embodiment opened.
9 is a partial perspective view showing the connection of the water storage member and the cleaning unit according to the second embodiment.
10 is a block diagram illustrating a signal flow of the refrigerator according to the second embodiment.
11 is a block diagram illustrating water flow in the refrigerator according to the second embodiment.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of other inventive inventions or the scope of the present invention can be easily made by adding, changing, or deleting other elements. I can suggest.

1 is a perspective view of a refrigerator according to a first embodiment. 2 is a front view in which the door of the refrigerator according to the first embodiment is opened.

1 and 2, the refrigerator 1 according to the first embodiment has an outer shape formed by a cabinet 10 having a storage space formed therein and a door 20 that opens and closes the storage space.

The storage space is partitioned from side to side by the barrier 12 to form the freezing chamber 14 and the refrigerating chamber 16, respectively. The door 20 includes a freezing compartment door 22 and a refrigerating compartment door 24 that open and close the freezing compartment 14 and the refrigerating compartment 16, respectively.

The refrigerator compartment 16 and the freezer compartment 14 are provided with a plurality of shelves and drawers for storing food. In addition, a plurality of baskets are provided on the rear surfaces of the refrigerating compartment door 24 and the freezing compartment door 22 for storing food.

On the other hand, the freezer compartment 14 or the freezer compartment door 22 may be provided with an ice maker 110 for making ice. The ice maker 110 is configured to freeze water automatically or manually to make ice. In addition, the ice made by the ice maker 110 may be automatically iced and stored in the ice bin 120, and may be taken out through the dispenser 100 to be described below.

In addition, the freezer compartment door 22 is provided with a dispenser 100. The dispenser 100 is configured to take out purified water or ice made by the ice maker 110 from the outside.

The water storage member 210 is provided inside the refrigerating chamber 16. The water storage member 210 stores water supplied to the dispenser 100 or the ice maker 110. In addition, the water storage member 210 is connected to the dispenser 100 and the ice maker 110 by a water supply passage 200 to supply water.

The water storage member 210 may be connected to the water supply 220 so that water may be continuously supplied using the water supply 220 as a water supply source. In this case, since the water storage member 210 does not need to be detached and detached, the water storage member 210 is fixedly mounted at an appropriate position inside the refrigerating chamber 16. For example, the water storage member 210 may be disposed at the rear of the drawer below the refrigerating chamber 16 as shown in FIG. 2.

On the other hand, the water storage member 210 may be a water source by the user to fill the water as needed, in this case, the water storage member 210 is provided detachably in the refrigerating chamber (16). That is, the water storage member 210 may be separated from the inside of the refrigerator to supply water for ice making and / or drinking, and may be configured to be remountable.

In addition, a filter 230 is provided inside the refrigerating chamber 16. The filter 230 purifies the water supplied from the water supply source to the ice maker 110 or the dispenser 100. The filter 230 may be connected to the water storage member 210 by the water supply passage 200. When the water supply 220 is a water supply source, the water supply 220 is provided on the water supply passage 200 between the water supply 220 and the water storage member 210.

In addition, a valve 240 is further provided on the water supply passage 200. The valve 240 is configured to selectively supply the water supplied from the water storage member 210 to the dispenser 100 or the ice maker 110.

On the other hand, the cleaning unit 300 is provided on the water supply passage 200. The cleaning unit 300 is configured to clean at least a portion of the water supply passage 200 and the inside of the water storage member 210. The cleaning unit 300 may be integrally formed with the water storage member 210. And, if a separate flow path is provided may be configured to be separated from the water storage member 210. That is, the cleaning unit 300 and the water storage member 210 may be provided on any one side of the refrigerating chamber 16 or the refrigerating chamber door 24, respectively.

3 is a perspective view of the cleaning unit according to the first embodiment mounted on the water storage member. And, Figure 4 is a perspective view schematically showing the cleaning unit body according to the first embodiment.

Referring to FIGS. 3 and 4, the water storage member 210 is formed in a space in which water is accommodated. In addition, the cleaning unit 300 is provided at one side of the water storage member 210.

The cleaning unit 300 is a suction flow path for allowing the cleaning unit body 310 to generate hydrogen peroxide by electrolyzing the incoming water, and the cleaning unit body 310 and the water storage member 210 to communicate with each other ( 320 and a return flow path 330, and a pump 340 for supplying water from the water storage member 210 to the cleaning unit 300.

In detail, the cleaning unit main body 310 is formed so that the movement passage 312 to move the water therein is supplied water from one side, the water can be discharged to the other side. The cleaning unit main body 310 is provided with an electrode such that hydrogen peroxide can be generated by plasma discharge in water, and a power supply device for supplying a high voltage to the electrode.

Therefore, the water passing through the electrode is brought into contact with the electrode to be electrolyzed to form hydrogen peroxide. At this time, the concentration of the hydrogen peroxide solution is configured to be 2 to 3%. The concentration of the hydrogen peroxide water can be adjusted by the voltage, but in the case of a high voltage, not only the power consumption is increased, but also a sufficient sterilization effect can be expected with about 2 to 3% hydrogen peroxide.

On the other hand, a pump 340 is provided between the cleaning unit body 310 and the water storage member 210. The pump 340 allows the water stored in the water storage member 210 to be supplied to the cleaning unit body 310.

The pump 340 may be attached to one side of the water storage member 210 may be integrally formed. In addition, the pump 340 may be provided in the suction passage 320 connecting the water storage member 210 and the suction side 314 of the cleaning unit main body 310 as necessary.

On the other hand, a separate pump (not shown) for supplying water to the dispenser 100 and the ice maker 110 on the water supply passage 200 may be provided. However, when a separate pump for supplying water to the dispenser 100 and the ice maker 110 is not provided, a separate switching valve 350 is provided on the flow path discharged from the pump 340. The water discharged from the pump 340 is configured to be branched.

That is, when the cleaning operation is not performed, the switching valve 350 is opened so that the water inside the water storage member 210 may be supplied to the dispenser 100 or the ice maker 110. On the other hand, the switching valve 350 is switched so that the water in the water storage member 210 can be supplied to the cleaning unit body 310 during the cleaning operation. In addition, during the cleaning operation, the switching valve 350 is controlled by the controller 400 such that water is not supplied to the dispenser 100 or the ice maker 110.

On the other hand, the return passage 330 is connected to the discharge side 316 of the cleaning unit body 310. Accordingly, the water storage member 210 and the cleaning unit body 310 are connected by the suction flow path 320 and the return flow path 330, and the water inside is circulated to circulate the inside of the water storage member 210. It is possible to continuously supply hydrogen peroxide water.

Hereinafter, the operation of the refrigerator according to the first embodiment having the configuration as described above will be described with reference to the drawings.

5 is a block diagram illustrating a signal flow of the refrigerator according to the first embodiment. 6 is a block diagram illustrating water flow in the refrigerator according to the first embodiment.

5 and 6, when water is supplied from the tap water 220, which is a water supply source, water is stored in the water storage member 210. When water is stored in the water storage member 210, when a user operates the dispenser 100 or a water supply signal for ice making in the ice maker 110 is transmitted to the controller 400, the pump 340. The water of the water storage member 210 is supplied to the dispenser 100 or the ice maker 110 through the water supply passage 200 by driving of the water.

At this time, the switching valve 350 is switched so that the water of the water storage member 210 is not supplied to the cleaning unit body 310 side, the water supply connected to the dispenser 100 or the ice maker 110. The water may be supplied to the flow path 200.

On the other hand, the cleaning unit 300 is driven to clean the inside of the water storage member 210 and a part of the water supply passage 200. The cleaning unit 300 may instruct the operation of the cleaning unit 300 through the input unit 410 provided on one side of the door 20.

An operation period and an operation time of the cleaning unit 300 may be set through the input unit 410, and the control unit 400 may operate the cleaning unit 300 according to an operation signal of the input unit 410. Control.

Meanwhile, the cleaning of the water storage member 210 may be automatically operated by a timer 420 or a flow sensor 430 connected to the controller 400. For example, when a predetermined time passes after the operation of the refrigerator 1, the cleaning unit 300 may be configured to operate. Then, the total flow rate of the water used through the dispenser 100 or the ice maker 110 is integrated, and when the predetermined amount or more, the cleaning unit 300 may be configured to operate.

The cleaning operation is started by the operation of the cleaning unit 300. In accordance with the start of the cleaning operation, the control unit 400 is switched so that the switching valve 350 can supply the water of the water storage member 210 to the cleaning unit body 310. Then, the water is not supplied to the dispenser 100 and the ice maker 110 until the cleaning operation is completed.

In the control unit 400, the water inside the water storage member 210 passes through the pump 340 and the suction flow path 320 by the operation of the pump 340. Flows into. Water introduced into the cleaning unit body 310 is moved along the movement passage. Then, it is in contact with the electrode during the flow along the movement passage 312 is electrolyzed to generate hydrogen peroxide.

Hydrogen peroxide water inside the moving passage is introduced into the water storage member 210 through the return passage 330. Then, as the above process is continuously repeated, the inside of the water storage member 210 can be sterilized and cleaned. After the cleaning unit 300 is operated for a predetermined time to sterilize and clean the inside of the water storage member 210, the cleaning operation is terminated.

When the cleaning operation is completed, all the water on the water storage member 210 and the water supply passage 200 are drained through the dispenser 100. At this time, the flow rate of the water drained through the dispenser 100 is detected by the flow sensor 430, the water storage member until the water storage member 210 and the water in the water supply passage 200 is completely drained Do not supply water to (210).

When the drainage is completed through the dispenser 100, water is supplied to the water storage member 210 again. The dispenser 100 and the ice maker 110 are ready for use by the water supplied into the water storage member 210, and the ice or drinking water iced by the user's operation can be taken out.

The present invention will be possible in addition to the above-described embodiment, other embodiments will be described below with reference to the second embodiment of the present invention.

A second embodiment of the present invention is characterized in that the cleaning flow passage connected to the cleaning unit is connected to the water supply passage for supplying water to the dispenser and the ice maker.

7 is a perspective view of the door of the refrigerator according to the second embodiment closed. 8 is a front view in which the door of the refrigerator according to the second embodiment is opened.

7 and 8, the refrigerator 3 according to the second embodiment has an outer shape formed by a cabinet 30 that forms a storage space therein and a door 40 that opens and closes the storage space.

The storage space is divided up and down by the barrier 32 to form the refrigerating chamber 34 and the freezing chamber 36, respectively. The door 40 may include a refrigerator compartment door 42 and a refrigerator compartment door 44 that open and close the refrigerator compartment 34 and the freezer compartment 36, respectively.

The refrigerator compartment door 42 of any one of the pair of refrigerator compartment doors 42 is provided with a dispenser 500. The dispenser 500 is configured to take out purified water or ice made in the outside from the outside.

In addition, the refrigerating compartment door 42 is provided with an ice making chamber 43 that forms an independent thermal insulation space. An ice maker 510 for making ice is provided in the ice making chamber 43, and the ice made in the ice maker 510 is configured to be taken out through the dispenser 500.

Meanwhile, the water supplied to the dispenser 500 and the ice maker 510 is supplied from a water supply source such as the water supply 630. In addition, the water supply source, the dispenser 500 and the ice maker 510 are connected by a water supply passage 600.

In addition, a filter 620 is provided on the water supply passage 600. The filter 620 may be provided to be replaced in the refrigerating chamber 34, and may be provided between the water supply 630, which is a water supply source, and the water storage member 610.

The water supply passage 600 is guided into the refrigerating compartment door 42 through the hinge 45 of the refrigerating compartment door 42. In addition, a water storage member 610 is provided inside the refrigerating compartment door 42. The cleaning unit 700 is connected to one side of the water storage member 610 by a cleaning passage 710. Further, a second pump 630 and a switching valve 640 for supplying water to the dispenser 500 and the ice maker 510 are further provided at an end portion of the water supply passage 600 connected to the cleaning passage 710. Can be.

9 is a partial perspective view showing the connection of the water storage member and the cleaning unit according to the second embodiment.

Referring to FIG. 9, the water storage member 610 is formed by winding the water supply passage 600 a plurality of times. Therefore, the water storage member 610 may maintain a state in which a predetermined amount of water is stored.

In addition, the water supply passage 600 connected to the water storage member 610 includes a first branch valve 740 and a second branch valve 750. The first branch valve 740 is provided on the water supply passage 600 corresponding to the inlet side of the water storage member 610, and the second branch valve 750 is disposed on the water storage member 610. It is provided on the water supply passage 600 corresponding to the outlet side.

In addition, the first branch valve 740 and the second branch valve 750 are connected by a cleaning channel 710, and a cleaning unit 700 is provided on the cleaning channel 710. The cleaning unit 700 is constituted by the cleaning unit body 720 and the first pump 730, the configuration of the cleaning unit body 720 is the same as the first embodiment described above, the detailed description thereof will be omitted. .

The cleaning unit 700, the first branch valve 740, and the second branch valve 750 are all controlled by the controller 800. Therefore, the cleaning unit 700, the first branch valve 740 and the second branch valve 750 are operated at the start of the cleaning operation.

Meanwhile, the cleaning unit 700 may be provided in the refrigerating compartment door 42 together with the water storage member 610. If necessary, the refrigerating compartment 34 may be a different space from the water storage member 610. It may be provided on the inner or high outer side. In this case, the cleaning passage 710 may be formed to extend for a long time.

Hereinafter, the operation of the refrigerator according to the second embodiment having the configuration as described above will be described with reference to the drawings.

10 is a block diagram illustrating a signal flow of the refrigerator according to the second embodiment. 11 is a block diagram illustrating water flow in the refrigerator according to the first embodiment.

10 and 11, when water is supplied from the water supply 630, which is a water supply source, water is stored in the water storage member 610. When water is stored in the water storage member 610 when a user operates the dispenser 500 or a water supply signal for ice making is transmitted from the ice maker 510 to the controller 800, the second pump ( The water of the water storage member 610 is supplied to the dispenser 500 or the ice maker 510 through the water supply passage 600 by the driving of the 630.

At this time, the first branch valve 740 and the second branch valve 750 are switched so that the water of the water storage member 610 is not supplied to the cleaning unit body 720, the dispenser 500 Alternatively, water may be supplied to the water supply passage 600 connected to the ice maker 510.

Meanwhile, the cleaning unit 700 is driven to clean the inside of the water storage member 610 and a part of the water supply passage 600. The cleaning unit 700 may instruct the operation of the cleaning unit 700 through the input unit 810 provided on one side of the door 40.

An operation period and an operation time of the cleaning unit 700 may be set through the input unit 810, and the control unit 800 may operate the cleaning unit 700 according to an operation signal of the input unit 810. Control.

Meanwhile, the cleaning of the water storage member 610 may be automatically operated by the timer 820 or the flow sensor 830 connected to the controller 800. For example, when a predetermined time passes after the operation of the refrigerator 3, the cleaning unit 700 may be configured to operate. Then, the total flow rate of the water used through the dispenser 500 or the ice maker 510 may be accumulated, and the cleaning unit 700 may be configured to operate when a predetermined amount or more is reached.

The cleaning operation is started by the operation of the cleaning unit 700. As the start of the cleaning operation, the control unit 800 switches the first branch valve 740 and the second branch valve 750 so that the water of the water storage member 610 is supplied to the cleaning unit body 720. To be possible. In addition, the dispenser 500 and the ice maker 510 are maintained in a state in which no water is supplied until the cleaning operation is completed.

In addition, in the controller 800, the water inside the water storage member 610 is cleaned through the cleaning passage 710 through the first branch valve 740 by the operation of the first pump 730. It flows into the unit body 720. Water introduced into the cleaning unit body 720 is moved along the movement passage 722. Then, the electrode is in contact with the electrode during the flow along the moving passage 722 to be electrolyzed to generate hydrogen peroxide.

Hydrogen peroxide water in the moving passage 722 is moved along the cleaning passage 710 and is introduced into the water storage member 610 through the first branch valve 740. As the above process is continuously repeated, the inside of the water storage member 610 may be sterilized and cleaned by the hydrogen peroxide solution. After the cleaning unit 700 is operated for a predetermined time to sterilize and clean the water storage member 610, the cleaning operation is terminated.

When the cleaning operation is completed, all the water on the water storage member 610 and the water supply passage 600 are drained through the dispenser 500. At this time, the flow rate of the water drained through the dispenser 500 is sensed by the flow sensor 830, the water storage member until the water storage member 610 and the water in the water supply passage 600 is completely drained Prevent water from being supplied to 610.

When the drainage is completed through the dispenser 500, water is supplied to the water storage member 610 again. In addition, the dispenser 500 and the ice maker 510 are ready for use by the water supplied to the inside of the water storage member 610 by switching between the first branch valve 740 and the second branch valve 750. It will be in the state and it will be possible to take out the ice or drinking water which iced by the user's operation.

100, 500. Dispenser 200,600. Water supply
210,610. Water storage member 300,700. Cleaning unit
400,800. Control

Claims (14)

A cabinet in which a storage space is formed;
A door for opening and closing the storage space;
A dispenser provided in the door and for discharging water or ice to the outside;
A water supply passage connecting the dispenser and a water supply source;
A water storage member provided on the water supply passage and storing water supplied to the dispenser;
A washing unit provided on the water supply passage, and generating hydrogen peroxide by electrolyzing the supplied water to clean at least a portion of the water storage member and the water supply passage; And
And a control unit electrically connected to the cleaning unit to operate the cleaning unit during the cleaning operation. The method of claim 1,
The washing unit, characterized in that the refrigerator is formed so as to communicate with the water storage member. The refrigerator of claim 1, wherein the cleaning unit is mounted to the water storage member. The method of claim 1,
The cleaning unit,
A washing unit body for forming a space in which incoming water is electrolyzed,
A suction passage connecting the water storage member to the cleaning unit main body and guiding water from the water storage member to the cleaning unit main body;
A pump connected to the suction passage and pumping water from the water storage member to the cleaning unit body;
And a return flow passage connecting the water storage member and the cleaning unit body to guide the electrolytic hydrogen peroxide water in the cleaning unit body to the water storage member. The method of claim 4, wherein
The pump is characterized in that the refrigerator is mounted to the water storage member. The method of claim 4, wherein
The water supply passage is provided with a switching valve connected to the pump and the suction passage,
The switching valve is a refrigerator characterized in that the water discharged from the pump is configured to be supplied to the suction flow path or water supply flow path according to the user's selection. The method of claim 1,
The water storage member is a refrigerator, characterized in that formed by winding a portion of the water supply passage a plurality of times. The method of claim 1,
And a tubular shape in which the water supply passage is connected. The method of claim 1,
And the water storage member and the cleaning unit are provided in the door. The method of claim 1,
The water storage member is a refrigerator, characterized in that configured to be removable. The method of claim 1,
And the water storage member and the cleaning unit are provided in the cabinet. The method of claim 1,
The water storage member is provided in the door, the cleaning unit is characterized in that the refrigerator provided in the cabinet. The method of claim 1,
A refrigerator characterized in that it is connected to the water supply passage and the cleaning unit, the cleaning passage for guiding the water of the water storage member to the cleaning unit during the cleaning operation is provided. The method of claim 1,
The water supply passage and the cleaning passage are connected by a branch valve,
The branch valve is a refrigerator, characterized in that the water supply flow path side is cut off during the cleaning operation and opened to the cleaning flow path side.

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