KR100727129B1 - Refrigerator - Google Patents

Abstract

Refrigerator according to the present invention comprises a freezer compartment and a refrigerating compartment; A storage tank accommodated in the refrigerating compartment and storing water; A tank holder for receiving the storage tank; A dispenser receiving water from the storage tank by gravity; A first discharge hole formed in the tank holder to discharge water supplied to the dispenser; An ice maker formed in the freezer compartment and generating ice using water supplied by gravity from the storage tank; And a second discharge hole formed in the tank holder to discharge water for supply to the ice maker.

According to the present invention, the user has a peak capable of obtaining ice made of clean water, and has the advantage of being able to drink clean water without opening the refrigerator door.

In addition, since the storage tank is formed detachably, the user can periodically clean the storage tank has the advantage of ensuring the hygiene reliability.

Refrigerator, Storage Tank, Tank Holder

Description

Refrigerator {Refrigerator}

1 is a perspective view of a refrigerator according to the present invention;

2 is a cross-sectional view of II ′ of FIG. 1.

3 is a perspective view of a storage tank according to the present invention.

4 is a perspective view of the discharge unit according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: refrigerator 3: freezer 4: cold room

7: dispenser 8: ice maker 9: ice bank

10: storage tank 11: tank holder 20: first discharge hole

21 second discharge hole 22 first valve 23 second valve

24 duct 35 first discharge portion 36 second discharge portion

41: spring valve 42: spring

The present invention relates to a refrigerator, and in detail, a user can conveniently detach and supply water directly, and to a storage tank that can easily take clean water from the outside without opening the refrigerator door.

In general, a refrigerator is equipped with a refrigerator body, a freezer compartment for storing food at sub-zero temperatures, a refrigerator compartment for storing food at an image temperature, and a refrigeration cycle device for cooling the freezer compartment and the refrigerator compartment at low temperature. A main body, a freezer compartment door connected to the main body to open and close the freezer compartment, and a refrigerating compartment door connected to the main body to open and close the refrigerating compartment.

In addition, there is a refrigerator including an ice maker that ices itself in the refrigerator.

The refrigerator may be classified into a refrigerator having a dispenser and a refrigerator having no dispenser.

The refrigerator with a dispenser has the advantage of taking out ice and water iced from the ice maker from the outside of the refrigerator, but the water supplied to the refrigerator is directly connected to the water, which may cause water concern.

Since a refrigerator without a dispenser cannot take ice or water from the outside, a troublesome problem arises because the refrigerator door must be opened to supply water to make ice, or the refrigerator door must be opened to obtain generated ice or water.

The present invention has been made in order to solve the above problems, and an object of the present invention is to propose a refrigerator in which a water storage tank capable of storing water in the refrigerator is formed.

In addition, it is an object of the present invention to propose a refrigerator that can eliminate the distrust of the water by allowing the user to directly fill the storage tank.

It is also an object of the present invention to propose a refrigerator which can be produced at a much lower cost by using gravity as a means of flowing water from a storage tank to an ice maker or a dispenser.

Refrigerator according to the present invention comprises a freezer compartment and a refrigerating compartment; A storage tank accommodated in the refrigerating compartment and storing water; A tank holder for receiving the storage tank; A dispenser receiving water from the storage tank by gravity; A first discharge hole formed in the tank holder to discharge water supplied to the dispenser; An ice maker formed in the freezer compartment and generating ice using water supplied by gravity from the storage tank; And a second discharge hole formed in the tank holder to discharge water for supply to the ice maker.

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By the refrigerator as described above, the user can take out clean water and ice made of clean water, and can take out the storage tank and periodically clean it, thereby solving the hygiene problem.

Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments falling within the scope of the same idea.

1 is a perspective view of a refrigerator according to the present invention.

Referring to FIG. 1, the refrigerator 1 according to the present invention includes a main body 2, a freezing compartment 3 for storing food at a sub-zero temperature, and a refrigerating compartment 4 for storing food at an image temperature. , A freezer compartment door 5 for opening and closing the freezer compartment 3, a refrigerating compartment door 6 for opening and closing the refrigerating compartment, and a dispenser 7 formed in the refrigerating compartment door 6 so that water can be drawn from the outside. ), An ice maker 8 for generating ice in the refrigerator 1, and an ice bank 9 for storing the ice generated by the ice maker 8.

In addition, a storage tank 10 for supplying water to the dispenser 7 or the ice maker 8, and a tank holder 11 for mounting the storage tank 10 is included, the storage tank 10 ) Is detachably formed with the tank holder 11 so that the user can directly supply water.

Hereinafter, the operation or action associated with the storage tank 10 will be described briefly.

The user separates the storage tank 10 from the tank holder 11 and supplies water to the storage tank 10. After supplying water to the storage tank 10, the storage tank 10 is seated on the tank holder 11. When the user places a cup on the dispenser 7 to take water from the outside of the refrigerator 1, the water in the storage tank 10 is supplied to the dispenser 7 through a predetermined flow path. In addition, water stored in the storage tank is supplied to the ice maker 8 through a predetermined flow path to produce ice.

Hereinafter, a structure for supplying water from the storage tank 10 to the ice maker 8 and the dispenser 7 will be described in detail.

FIG. 2 is a cross-sectional view of II ′ of FIG. 1.

Referring to FIG. 2, in the refrigerator 1, the freezing compartment 3 and the refrigerating compartment 4 are partitioned by partition walls 15.

In detail, a tank holder 11 is formed in the refrigerating chamber 4 so that the storage tank 10 for storing water is seated, and water is discharged to the dispenser 7 under the tank holder 11. A first discharge hole 20 is formed, and the first discharge hole 20 is formed with a first valve 22 for controlling the flow of water to the dispenser 7.

In this case, the dispenser 7 is positioned below the tank holder 11 when the refrigerating compartment door 6 is closed, and communicates with the first discharge hole 20 when the first valve 22 is opened. do.

In addition, a second discharge hole 21 for supplying water from the storage tank 10 to the ice maker 8 is formed at one side of the tank holder 11.

In the freezer compartment 3, an ice maker 8 for ice making ice and an ice bank 9 for storing iced ice are formed.

In addition, the duct 24, which is a flow passage of water, is formed in the partition wall 15 that divides the freezing compartment 3 and the refrigerating compartment 4 so that the water stored in the storage tank 10 is supplied to the ice maker 8. The duct 24 is connected to the second discharge hole 21.

In addition, the duct 24 is formed with a second valve 23 for opening and closing the duct 24. Therefore, the supply of water to the ice maker 8 is made by opening and closing the second valve 23, the opening and closing time of the second valve 23 is to vary depending on the amount of water stored in the storage tank (10). Is set.

In detail, when only water is accommodated in the storage tank 10, the pressure is increased to be discharged at a high speed when the water is discharged, but when the amount of water is increased and the amount of water decreases, the speed of water discharge is reduced. .

Therefore, it is necessary to adjust the opening and closing time of the second valve 23 according to the amount of water. Therefore, the opening time of the second valve 23 is determined as an initial value when only water is received in the storage tank 10 and is seated in the tank holder 11, and the water stored in the storage tank 10 is determined. Each time the number of discharge increases, the opening time of the second valve 23 is gradually increased to set the amount of water supplied to the ice maker 8 to be constant.

For example, when the opening time of the second valve 23 is set to 5 seconds when only water is received in the storage tank 10, the number of times of the second valve 23 is increased at each time as the number of times of water supply increases. You can set the open time to increase by 1 second.

In this case, the opening time of the second valve 23 may be stored in a microcomputer formed in the control unit in advance in the time table derived by the experiment so as to automatically control the opening and closing of the second valve 23.

Hereinafter, the structure of the storage tank 10 will be described in detail.

3 is a perspective view of a storage tank according to the present invention.

Referring to FIG. 3, the storage tank 10 according to the present invention includes a body 30 forming a space for storing water, and a lid 31 for allowing a user to directly supply water to the storage tank 10. And, a transparent window 32 to check the remaining amount of water stored in the storage tank 10 is included.

In addition, the discharge unit 35, 36 to discharge the water stored in the storage tank 10 to the ice maker 8 and / or the dispenser 7 is included.

In detail, the body 30 may be formed as a whole transparent so that the user can check the remaining amount of water from the outside, in this case, the transparent window 32 may not be formed separately.

Meanwhile, the discharge parts 35 and 36 may include a first discharge part 35 for supplying water to the ice maker 8 and a second discharge part 36 for supplying water to the dispenser 7. The water is discharged into the discharge holes 20 and 21 only when the storage tank 10 is divided in the tank holder 11.

Hereinafter, the structure of the discharge parts 35 and 36 will be described.

4 is a perspective view of the discharge unit according to the present invention.

Referring to FIG. 4, the discharge parts 35 and 36 according to the present invention have a cylindrical body 40 in which a hollow, which is a passage through which water flows, is formed, and a spring valve 41 for opening and closing the hollow. Is included, the spring valve 41 is opened and closed by the elastic force by the spring (42). Here, the elastic force is a compressive force when the storage tank 10 is mounted to the tank holder 11, and is a restoring force when the storage tank 10 is separated from the tank holder 11.

Referring to the operation of the discharge part 35, 36, the spring valve 41 is closed by the force of the spring 42 before the storage tank 10 is mounted to the tank holder 11 Thus, water does not flow into the discharge parts 35 and 36.

First, when the storage tank 10 is mounted to the tank holder 11, the spring valve 41 is in contact with the inner surface of the tank holder 11 is pressed. When the spring valve 41 is pressed, the spring 42 is compressed, the spring valve 41 is moved in the compression direction. Then, water is introduced into the body 40 by opening the spring valve 41.

Then, when the storage tank 10 is separated from the tank holder 11, the compression force for compressing the spring 42 is removed, so that the spring 42 is again spring by the elastic force (restoration force) The valve 41 is pushed. Then, the spring valve 41 is closed again by the elastic force of the spring 42, so that water is not discharged from the storage tank 10 to the discharge portion (35) (36).

Hereinafter, a process of supplying water from the storage tank 10 will be described.

When the storage tank 10 is seated on the tank holder 11, as described above, the spring valve 41 is opened to prepare water to be discharged.

First, when a user brings a cup to the dispenser 7 to drink water, the first valve 22 formed in the first discharge hole 20 is opened. When the first valve 22 is opened, the water contained in the storage tank 10 is discharged to the dispenser 7 through the first discharge hole 20 by gravity, so that the user is outside the refrigerator 1. You will be able to drink water.

Meanwhile, in order to supply water to the ice maker 8, the amount of ice stored in the ice bank 9 storing the ice formed in the ice maker 8 must be checked first. When the ice bank 9 is checked by a predetermined device formed in the ice maker 8 and further ice can be formed, water is supplied to the ice maker 8.

In detail, when the second valve 23 formed in the duct 24 is opened and the second valve 23 is opened, the water stored in the storage tank 10 is discharged from the second discharge hole. 21 is supplied to the ice maker 8 via the duct 24.

The flow of water from the storage tank 10 to the ice maker 8 is caused to flow by gravity to enable the flow of water without using a separate means.

Here, the water supplied to the ice maker 8 should be adjusted to a certain amount at the time of supplying, if only the water is accommodated in the storage tank 10, the pressure is increased to be discharged at a high speed when the water is discharged When the amount of water decreases, the rate of discharge of the water decreases. Therefore, if the opening time of the second valve 23 is the same for every supply, the amount of water supplied to the ice maker 8 varies. Occurs.

Therefore, it is necessary to adjust the opening and closing time of the second valve 23 according to the amount of water. Therefore, the opening time of the second valve 23 is set as an initial value when only water is received in the storage tank 10 and is seated in the tank holder 11, and each time the number of discharges of water increases, The opening time of the two-valve 23 is gradually increased to set the amount of water supplied to the ice maker 8 to be constant.

For example, if the opening time of the second valve 23 when only water is accommodated in the storage tank 10 is set to 5 seconds, the opening time of the second valve 23 is increased for each number of times as the water supply frequency increases. You can set this to increase by 1 second.

As such, by forming the storage tank 10 that can store water in the refrigerator 1, the user can directly supply clean water to eliminate the distrust of the water, if necessary, the storage tank 10 The tank holder 11 can be separated and cleaned.

According to the present invention, the user has a vertex to obtain ice made of clean water.

In addition, there is an advantage that you can drink clean water without opening the refrigerator door.

In addition, since the storage tank is formed detachably, the user can periodically clean the storage tank has the advantage of ensuring the hygiene reliability.

In addition, by supplying water using gravity, there is an advantage that the storage tank can be installed and maintained at a low cost without large changes in the structure of the existing refrigerator.

Claims (8)

Freezer and cold store rooms; A storage tank accommodated in the refrigerating compartment and storing water; A tank holder for receiving the storage tank; A dispenser receiving water from the storage tank by gravity; A first discharge hole formed in the tank holder to discharge water supplied to the dispenser; An ice maker formed in the freezer compartment and generating ice using water supplied by gravity from the storage tank; And The refrigerator comprises a second discharge hole formed in the tank holder for discharging water for supply to the ice maker. The method of claim 1, And a duct for allowing the ice maker to communicate with the first discharge hole of the tank holder. The method of claim 1, The refrigerator further comprises a first valve and a second valve for controlling the flow of water discharged through the first discharge hole and the second discharge hole. The method of claim 1, The time that the water supplied to the ice maker is increased as the amount of water stored in the storage tank is reduced. delete delete delete delete

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