KR20140019595A - 3 door type refrigerator - Google Patents

Abstract

The present invention relates to a triple door type refrigerator comprising a refrigerator body having a storage chamber partitioned into three separate storage parts; a refrigerator door for opening or closing each storage part; a cold air duct on the rear wall of the refrigerator body to supply cold air; and a temperature change room to be installed on one of the storage parts. The storage parts comprise a first storage chamber for partitioning off a freezer; and second and third storage chambers for vertically partitioning off a fridge. The second and third storage chambers are connected to each other through a connection hole. The third storage chamber includes a direction change guide member for guiding cold air which has cooled the second storage chamber to flow to the refrigerator door pocket of the third storage chamber through the connection hole. Therefore, the inside of the third storage chamber is uniformly cooled without a temperature departure as the cold air is prevented from escaping through a return hole.

Description

3 door type refrigerator {3 DOOR TYPE REFRIGERATOR}

The present invention relates to a three door type refrigerator, and more particularly, to a three door type refrigerator in which cold air flowing from an upper refrigerator compartment to a lower refrigerator compartment is smoothly supplied toward a pocket of a refrigerator door.

Generally, a refrigerator is a device that keeps the food in a fresh state for a predetermined period by reducing the temperature of the refrigerating chamber and the freezing chamber as the refrigerant repeats a refrigerating cycle in which the refrigerant compresses - condenses - expands - evaporates.

To this end, the refrigerator is provided with a compressor for compressing refrigerant, a condenser for condensing the refrigerant introduced from the compressor by outside air, an expansion valve for reducing the refrigerant introduced from the condenser, And an evaporator that absorbs heat in the furnace as it evaporates in the furnace.

Meanwhile, the refrigerator includes a top mount freezer in which the freezer and the refrigerating compartment are divided up and down, a bottom mount freezer in which the refrigerating compartment and the freezer are divided up and down, and the freezer and the refrigerating compartment in the left and right sides. It is divided into side by side partitioned.

Recently, as a structure of the side-by-side type refrigerator is improved, a three-door type refrigerator having a freezer compartment on one side and a refrigerator compartment divided into two spaces in the up and down directions on the other side has been developed.

Hereinafter, a refrigerator of a 3 degree type according to the prior art will be described with reference to FIGS. 1 and 2.

As shown in the drawing, a refrigerator having a three degree type according to the related art includes a refrigerator main body 10 in which a storage compartment is divided into three independent storage units, and a refrigerator door for opening and closing the independent storage units 11, 12, and 13. 20), an evaporator 30 installed at the rear wall of the refrigerator main body 10 to generate cold air, and a cold air duct 40 for guiding the cold air generated from the evaporator 30 to the independent storage unit 12. It is configured by.

In addition, the independent storage unit 13 is provided with a temperature conversion room 50 that can vary the internal temperature in accordance with the temperature characteristics of the particular storage article.

The cold air generated from the evaporator 30 repeats the cold air circulation process flowing along the cold air duct 40 and flowing back from the upper independent storage 12 to the return hole 42 through the lower independent storage.

However, in the case of the refrigerator having a 3 degree type according to the related art, a large amount of cold air is returned while the cold air discharged from the cold air duct 40 cools the upper independent storage unit 12 and moves to the lower independent storage unit 13. Due to a structural problem exiting the hole 42, the lower independent storage unit 13 has a problem that the overall refrigeration effect can not be expected.

The present invention has been made to solve the above problems, an object of the present invention is to provide a three-door type refrigerator in which cold air flowing from the upper refrigerating compartment to the lower refrigerating compartment is smoothly supplied toward the pocket of the refrigerator door.

In order to achieve the above object, the three-door type refrigerator according to the present invention,

A refrigerator body partitioning the storage compartment into three independent storage units, respectively;

A refrigerator door configured to open and close the three independent storage units, respectively;

A cold air duct installed on a rear wall of the refrigerator main body to supply cold air;

It includes a temperature conversion room installed in any one of the three independent storage,

The three independent storage units are composed of a first storage compartment partitioning the freezing compartment, a second storage compartment partitioning the refrigerating compartment in a vertical direction, and a third storage compartment,

The second storage chamber and the third storage chamber are in communication with each other through the communication hole,

The third storage compartment may include a redirection guide member configured to guide cold air cooling the second storage compartment through the communication hole toward the refrigerator door pocket side of the third storage compartment.

Here, the redirection guide member is characterized in that it is composed of a first plate that one surface is in close contact with the rear wall of the refrigerator main body, and a second plate extending from the first plate toward the refrigerator door pocket.

In addition, the lower end of the first plate is bent toward the second plate is connected to the front end of the second plate, the bent portion is characterized in that it is recessed to a certain depth downward to form a foreign matter receiving groove.

The temperature conversion room is installed in a third storage room, and the bottom surface of the second plate is fixed in a state of being interviewed with the temperature conversion room.

According to the present invention, the third storage compartment is configured by guiding a directional guide member for guiding the cold air cooled in the second storage compartment toward the refrigerator door pocket side of the third storage compartment, thereby restricting the rapid escape of the cold air into the return hole. 3 The inside of the storage room can be refrigerated evenly without temperature deviation.

1 is a front view showing a 3 degree type refrigerator according to the prior art.
2 is a side sectional view of Fig.
Figure 3 is a side cross-sectional view showing a three degree type refrigerator according to an embodiment of the present invention.
4 is a perspective view illustrating the direction change guide member of FIG. 3.
5 is a cross-sectional view of FIG. 4.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 3 to 5.

As shown, the three-door type refrigerator according to the present invention includes a refrigerator main body 100 partitioned into three independent storage units, a refrigerator door 200 opening and closing the three independent storage units, and the refrigerator. It is configured to include a cold air duct 300 is installed on the rear wall of the main body 100 to supply cold air, and the temperature conversion room 400 is installed in any one of the three independent storage.

First, the refrigerator main body 100 has a housing structure having a predetermined size in which a storage chamber having a front surface opened for storing food is formed.

The refrigerator main body according to the present invention forms a first partition (not shown) that divides the inside of the storage compartment into left and right sides, and divides the refrigerator compartment into a freezer compartment and a refrigerator compartment. The divided second partition 110 is divided into an upper refrigerator compartment and a lower refrigerator compartment.

That is, when the refrigerator main body 100 is viewed from the front, the left side partitioned by the first partition wall is utilized as a freezer compartment and the right side is utilized as a refrigerator compartment, and the refrigerator compartment is vertically moved by the second partition wall 110. It is divided into two spaces and consists of three independent storage units.

Hereinafter, for convenience of description, the three independent storage units are referred to as a first storage compartment (not shown) in which a freezing compartment is partitioned, and a second storage compartment 101 and a third storage compartment 102 in which a refrigerating compartment is partitioned in the vertical direction.

In addition, the second storage compartment 101 and the third storage compartment 102 partitioned by the second partition wall 110 share the cold air generated from the evaporator 30 to cool each storage compartment.

To this end, the second partition wall 110 has one end spaced apart from the rear wall of the refrigerator main body 100 by a predetermined interval so that cold air flows from the second storage compartment 101 to the third storage compartment 102. To prepare.

Therefore, the second storage chamber 101 and the third storage chamber 102 communicate with each other through the communication hole 111.

The refrigerator door 200 controls the storage compartment of the refrigerator main body 100 so as to be opened and closed, and has three configurations corresponding to the first storage compartment, the second storage compartment 101, and the third storage compartment 102.

In addition, a cold air duct 300 for supplying cold air generated from the evaporator 30 to the freezing compartment and the refrigerating compartment is installed on the rear wall of the refrigerator main body 100.

Since the cold air duct 300 is the same as or similar to a known technology applied to the conventional refrigerator field, a detailed description thereof will be omitted.

In addition, the refrigerator main body 100 is provided with a temperature conversion room 400 that can change the internal temperature in accordance with the temperature characteristics of a particular storage article.

The temperature conversion room 400 is configured to receive the cold air directly from the evaporator 30 to cool.

Meanwhile, the third storage compartment 102 includes a direction change guide member 500 for guiding the cold air cooling the second storage compartment 101 toward the pocket of the refrigerator door 200 of the third storage compartment 102. It is configured by.

The redirection guide member 500 is cold-cooled to the return hole 42 formed in a straight downward direction in the process of the cold air cooling the second storage compartment 101 flows into the third storage compartment 102 through the communication hole 111. Plays a role in regulating exits.

The redirection guide member 500 extends from the first plate 510 toward the pocket of the refrigerator door 200 from one surface of the first plate 510 which is erected in a state in which the surface is in close contact with the rear wall of the refrigerator main body 100. It consists of a second plate 520.

In addition, the bottom surface of the second plate 520 may be fixed in a state of being interviewed by the temperature conversion room 400.

Accordingly, the cold air introduced from the second storage compartment 101 through the communication hole 111 flows toward the pocket of the refrigerator door 200 of the third storage compartment 102 by the direction change guide member 500. The inside of the third storage chamber 102 can be refrigerated uniformly without temperature deviation.

In addition, the lower end of the first plate 510 is bent toward the second plate 520 is connected to the front end of the second plate 520, the bent portion is recessed to a certain depth downwards to accommodate foreign matter It is preferable to form 530.

This is to keep the liquid foreign matter from the food stored in the second storage chamber 101 to flow to the third storage chamber through the communication hole 111 so as not to scatter in all directions.

According to the present invention configured as described above, the third storage compartment 102 has a direction change guide member for guiding the cold air cooling the second storage compartment 101 toward the refrigerator door 200 pocket side of the third storage compartment 102. By constructing the 500, the cold air quickly exits to the return hole 42, thereby regulating the inside of the third storage chamber 102 to be uniformly refrigerated without temperature deviation.

100: refrigerator body
101: first storage room
102: second storage room
110: second bulkhead
111: communication hole
200: Refrigerator door
300: cold duct
400: temperature conversion room
500: direction change guide member
510: first plate
520: second plate
530: foreign matter receiving groove

Claims (4)

A refrigerator body partitioning the storage compartment into three independent storage units, respectively;
A refrigerator door configured to open and close the three independent storage units, respectively;
A cold air duct installed on a rear wall of the refrigerator main body to supply cold air;
It includes a temperature conversion room installed in any one of the three independent storage,
The three independent storage units are composed of a first storage compartment partitioning the freezing compartment, a second storage compartment partitioning the refrigerating compartment in a vertical direction, and a third storage compartment,
The second storage chamber and the third storage chamber are in communication with each other through the communication hole,
And the third storage compartment includes a redirection guide member configured to guide cold air cooling the second storage compartment to the refrigerator door pocket of the third storage compartment through the communication hole.
The method of claim 1,
The redirection guide member is a three-door refrigerator, characterized in that composed of a first plate, one surface of which is in contact with the rear wall of the refrigerator main body, and a second plate extending from the first plate toward the refrigerator door pocket.
3. The method of claim 2,
The lower end of the first plate is bent toward the second plate is connected to the front end of the second plate, the bent portion is a three-door type refrigerator, characterized in that the recessed downwards to a certain depth to form a foreign material receiving groove .
The method of claim 3,
The temperature conversion room is installed in the third storage compartment, the three-door refrigerator, characterized in that the bottom surface of the second plate is fixed in an interview state with the temperature conversion room.

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