KR20000001435U - Cold air circulation structure in the refrigerator - Google Patents

Abstract

The present invention relates to the cold air circulation structure in the refrigerator to reduce the consumption of electric power and to ensure that the cold air is well supplied to each shelf of the refrigerator compartment as well as the previously supplied cold and cold air to the refrigerator compartment. Separately from the inside of the refrigerating compartment housing is formed on both sides and the rear, the intake side is branched to each cold air circulation inlet (5C) and the air supply side is a circulation duct 11A having an integral shape with respect to the cold air circulation outlet (5B) ) And the central portion of the circulation duct 11A are formed on the line where the intake side and the air intake side duct are on different lines, and a predetermined area is in contact with each other, and an axial flow fan is provided at the contact portion.

Description

Cold air circulation structure in refrigerator

The present invention relates to a cold air circulation structure of the refrigerator, and in particular, the cold air that has been supplied to the refrigerator compartment and the currently supplied cold air is well combined, so that the cold air is supplied to each shelf of the refrigerator compartment well and to reduce the power consumption. It relates to the circulation structure.

In general, the refrigerator forms an internal cooling structure as shown in FIG. 1, which includes an evaporator 3 that cools the surrounding air by a circulation process of a refrigerant (not shown), and the evaporator ( The fan 2 which blows the air cooled by 3) and forcibly circulates to the freezer compartment 1 and the refrigerator compartment 6-8 side, and the cooling air forcibly blown by the said fan 2 to the refrigerator compartment 6-8 side. In order to distribute air between the cold air circulation cylinder 5A and the inside of the refrigerating chamber 6-8 and the cold air circulation cylinder 5A, which are connected to both sides of the housing and the rear surface of the refrigerator compartment 6-8, It consists of a cold air discharge port 5 for blowing the cooling air delivered through the cold air circulation cylinder (5A) into the refrigerating chamber (6-8).

Looking at the cold air circulation process by the internal cooling structure of the refrigerator configured as described above, the cold air generated in the evaporator (3) is circulated by the fan (2) to the freezer compartment (1) and the refrigerating chamber (6 to 8), the temperature in the refrigerator In the refrigerator compartment along the cold air circulation cylinder 5A in which cold air generated in the evaporator 3 and discharged by the fan 2 is installed in the refrigerator compartments 6-8. In the direction of the arrow.

That is, the cold air discharged through the cold air discharge ports 5 formed on the three surfaces of the refrigerating chambers 6 to 8 is returned to the evaporator 3 side by the cold air intake port (not given the reference number), recooled, and then described above. The cycling process as described above will be redone.

Therefore, according to the circulation structure of the cold air as described above, the freezer compartment 1 and the refrigerating compartments 6 to 8 maintain a specific temperature for each part, but the refrigerating compartment 1 maintains a state of about -19 ° C. In the refrigerating compartment, the flavor freezing compartment (8: used for storing fish or meat) in the freezing compartment 1 and in contact with the freezing compartment 1 maintains approximately -1 to 1 ° C. In addition, the vegetable chamber 6 maintains 2 ° C to 3 ° C, and the other part of the refrigerating chamber, that is, the food chamber 7, maintains about 1 ° C to 3 ° C.

However, in the cold air circulation structure of the refrigerator as described above, a fan 2 for blowing cold air is provided on the freezing compartment 1 side, and the cold air is supplied to the entire refrigerator / freezing area of the refrigerator at a position close to the evaporator 3. As a result, a difference in temperature of cold air occurs between a portion that is naturally located at a short distance and a portion that is located at a far distance.

In addition, according to the volume and quantity of the refrigerated food stored in the refrigerator compartment, the temperature difference between the shelves in the interior becomes more severe, it is difficult to maintain the freshness of the refrigerated food for a long time.

Recent techniques for solving such a problem are shown in the accompanying Figure 2, the evaporator (3) to cool the surrounding air by the circulation process of the refrigerant, and the air cooled in the evaporator (3) Fan 2 for forcibly circulating to the freezer compartment 1 and the refrigerating compartment 6, 7, and the refrigerating compartment 6, for delivering cooling air forced by the fan 2 to the refrigerating compartment 6, 7. 7) The first cold air supply duct 10 is formed inside the rear of the housing, the inside of the refrigerating chamber (6 to 8) and the first cold air supply duct 10 is formed for the air circulation and the first cold air supply A cold air discharge port 5 for blowing cooling air delivered through the duct 10 into the refrigerating chambers 6 and 7 and a housing of the refrigerating chambers 6 and 7 separately from the first cold air supply duct 10. Second cold air supply duct (11) formed on both sides and inside the rear And a circulation fan 9 formed in the second cold air supply duct 11 to force circulation of cold air to each part of the refrigerating chamber, and the refrigerating chamber 6 and 7 on one side of the refrigerating chamber 6 and 7 housing. The cold air circulation discharge port is formed for air circulation between the inside and the second cold air supply duct 11 and blows cold air delivered through the second cold air supply duct 11 into the refrigerating chambers 6 and 7. 5B) and air circulation from the inside of the refrigerating chambers 6 and 7 to the second cold air supply duct 11 formed on one side of the inside of the refrigerating chambers 6 and 7 in which the cold air circulation discharge port 5B is not formed. It consists of a cold air circulation inlet 5C.

Through such a structure, the cold air currently supplied may be mixed with the cold air previously supplied, and then circulated through the second cold air supply duct 11 to smoothly supply cold air. However, even in a cold air supply duct structure having such a structure, when the stored foods are filled in each shelf, the circulation fan 9 needs to be high performance because the air flow in the refrigerating chamber is not smooth, and the power consumption is greatly increased. An increasing problem has arisen.

In addition, there is a problem that the temperature distribution in the high temperature is uneven due to the deviation of the cold room on / off operation occurs because the circulation of cold air falls.

An object of the present invention for solving the above problems is to ensure that the cold air is well supplied to each shelf of the refrigerator compartment as well as the cold air previously supplied to the refrigerating compartment is well combined, and to reduce power consumption. It is to provide a cold air circulation structure in the refrigerator.

1 is a side cross-sectional view illustrating a cold air circulation process in a typical refrigerator

2 is an exemplary view for explaining a conventional cold air circulation structure having a fan for stirring in the cold air circulation.

Figure 3 is a schematic illustration for explaining the cold air circulation structure in the refrigerator according to the present invention

4 is a cross-sectional view of the duct shown in FIG.

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

1: freezer 2: fan

3: evaporator 4: precooler

5: cold air discharge port 5A: cold air circulation cylinder

5B: humidification circulation inlet 5C: humidification circulation inlet

6: vegetable room 7: food room

8: taste cold room 9: humidification fan

10: cold air circulation duct 11: humidification duct

11A: Circulation Duct

A feature of the present invention for achieving the above object is a fan for cooling the ambient air by the cooling process of the refrigerant to cool the surrounding air by blowing the air forced to circulate to the freezer compartment and the refrigerating chamber side, the cooling by forced ventilation in the fan The cold air supply duct formed inside the rear side of the refrigerating compartment housing for delivering air to the refrigerating compartment side, and the cooling air delivered through the cold air supply duct and formed for the air circulation between the refrigerating compartment and the cold air supply duct. A refrigerator having a cold air discharge port to be blown into an inside: connected to both sides and a rear side of the refrigerating chamber housing separately from the cold air supply duct, and the intake side is branched to each cold air circulation inlet, and the air side is cold air Unitary shape with respect to the circulating discharge port The circulation duct having a central portion of the circulation duct and the intake side and the air intake side duct is present on a different line and is configured to be in contact with each other a predetermined region and the axial flow fan is provided in the contact portion.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

3 is an exemplary view for explaining a cold air circulation structure according to the present invention, the evaporator (3) to cool the surrounding air by the circulation process of the refrigerant, and the air cooled in the evaporator (3) by blowing the freezer compartment (1) and a fan (2) forcibly circulating to the refrigerating compartments (6, 7), and the rear side of the refrigerating compartment (6, 7) for delivering the cooling air forcedly blown from the fan (2) to the refrigerating compartments (6, 7) side. A first cold air supply duct 10 formed therein, and configured for air circulation between the interior of the refrigerating chambers 6 to 8 and the first cold air supply duct 10, and the first cold air supply duct 10 Cold air outlet 5 for blowing the cooling air delivered through the inside of the refrigerating compartment (6, 7), the refrigerator compartment (6, 7) housing both sides and the rear inside separately from the first cold air supply duct (10) A second cold air supply duct 11 connected to the second cold air supply duct; A circulation fan 9A formed inside the duct 11A for forced circulation of cold air to each part of the refrigerating chamber, and inside the refrigerating chamber 6 and 7 and the second cold air on one side of the refrigerating chamber 6 and 7 housing. A cold air circulation discharge port 5B which is formed for air distribution of the supply duct 11A and blows cold air delivered through the second cold air supply duct 11A into the refrigerating chambers 6 and 7, and the cold air The cold air circulation intake port is formed on one side of the inside of the refrigerating chambers 6 and 7 in which the circulation discharge port 5B is not formed, and performs air circulation from the inside of the refrigerating chambers 6 and 7 to the second cold air supply duct 11A. It consists of 5C.

As such, the duct structure according to the present invention does not appear to be significantly different from the conventional duct structure shown in FIG.

In the circulation duct 11A, the intake side is integrated into one close to the axial flow fan used as the circulation fan 9A in a branched shape to each cold air circulation intake port 5C, and the air intake side is used as the circulation fan 9A. It has a shape integral with the axial fan.

Accordingly, the intake side is rapidly sucked into the bottleneck of the air as the axial fan rotates, and the sucked cold air is blown along the integrated duct so as to reduce the load of the axial fan when blowing to the cold air circulation discharge port 5B.

In the cold air circulation structure configured as described above, the cross-section of the duct structure centered on the axial fan is provided with an axial fan at a portion in contact with the intake side and the air supply side duct as shown in FIG. 4. At this time, the rotation speed of the axial flow fan used as the circulation fan 9A is usually 1000 to 3500 RPM, and the size of the fan is ψ80 to 130.

By providing a cold air circulation structure in the refrigerator according to the present invention that operates as described above to ensure that the cold air is supplied well to each shelf of the refrigerator compartment as well as the previously supplied cold and cold air currently supplied to the refrigerator compartment and power consumption It can reduce the effect.

Claims (1)

It is formed inside the refrigerating chamber wall to deliver the air cooled in the evaporator that cools the surrounding air by the circulation process of the refrigerant to forcibly circulate to the freezer compartment and the refrigerating compartment, and to deliver the cooling air forced by the fan to the refrigerating compartment. In a refrigerator having a cold air supply duct, and a cold air discharge port which is formed for the air circulation of the inside of the refrigerating compartment and the cold air supply duct, and blows the cooling air delivered through the cold air supply duct into the refrigerating compartment. : Separately from the cold air supply duct is formed inside the refrigerating chamber wall surface, the intake side is branched with respect to each cold air circulation inlet (5C) and the air supply side is a circulation duct having an integral shape with respect to the cold air circulation outlet (5B) With 11A, The central portion of the circulation duct is in the intake side and the air intake side duct is on a different line and configured to be in contact with each other a predetermined region, the cold air circulation structure in the refrigerator, characterized in that the axial flow fan is provided in the contact portion.