KR200147014Y1 - Cool air flowing structure for freezing cold storage room of a refrigerator - Google Patents

Abstract

The present invention relates to a freezer compartment cold air flow structure of the refrigerator to maintain a uniform temperature distribution of the refrigerating compartment by allowing the discharge cold inside the freezer compartment of the refrigerator to be evenly supplied even to the front upper corner region of the refrigerating compartment. The freezer compartment cold air flow structure according to the present invention has a duct having a flow path which is generated in the evaporator, and part of the freezer compartment discharge cold air exiting the cold air discharge hole of the grill fan by driving the blower fan is directed from the upper side to the lower side of the inner side of the freezer compartment door. The structure is mounted on the inner surface of the freezer compartment door, wherein the duct is formed with a cold suction hole in the upper portion of the front surface and a cold air discharge hole is formed in the lower portion of the front surface adjacent to the entrance of the barrier home duct.

Description

Freezer Freezer Flow Structure

1 is a side cross-sectional view showing a cold air circulation process inside a freezer compartment of a conventional refrigerator.

Figure 2 is a side cross-sectional view showing a cold air circulation process inside the freezer compartment of the present invention refrigerator.

Figure 3 is a perspective view of the upper door basket cooling duct of the present invention.

* Explanation of symbols for main parts of the drawings

1: Freezing chamber 7: Discharge duct

7a: discharge duct inlet 9: freezer door

10a, 10b: door basket 20: duct

21: cold air suction hole 22: cold air discharge hole

The present invention relates to the improvement of the freezer cold air circulation structure of the refrigerator, and more specifically, by installing a cold air suction duct on the inside of the door equipped with the freezer door basket, the cold air discharged from the cold air discharge hole of the grill pan is returned through the cold air suction duct. It relates to a freezer compartment cold flow structure of the refrigerator to be supplied to the duct so that the cold air is evenly supplied to all areas in the freezer compartment.

In general, a refrigerator has a freezer compartment formed at an upper portion of the refrigerator, the lower portion of which is formed integrally with a heat insulation wall in an inner space surrounded by an insulating wall constituting an outer wall, and a refrigerator compartment is formed at a lower portion thereof. Each of the freezing and refrigerating chamber opening and closing doors has a structure before attachment to the front surface of the freezing and refrigerating chamber, and is generated as a result of heat exchange generated during the circulation of the refrigerant by driving a compressor mounted inside the machine room on one side of the refrigerating compartment. Cooling in the inside of the refrigerator is achieved by distributing and supplying cold air to the freezer compartment and the refrigerating compartment. In this conventional refrigerator, the structure and the cold air circulation process of the freezer compartment, in particular, will be described based on the side cross-sectional view of the freezer compartment of the conventional refrigerator of FIG. Same as

As shown, the cool air generated in the evaporator 2 installed on the rear surface of the freezer compartment 1 of the refrigerator is partially driven by the blower fan 3 through the shroud 4 and the grill pan 5 in front of it. The cold room 1 is supplied to the freezing chamber 1, and the cold air of the bare land is supplied to the inside of the refrigerating chamber (not shown) through the barrier 6.

In this way, the cold air supplied into the freezing chamber 1 undergoes heat exchange with the surrounding heat source while flowing in a path as indicated by the arrow, and is then sucked into the return duct 7 formed in the barrier 6 to evaporate ( Return is made to 2) side.

Looking in more detail the flow path of the cold air supplied to the freezer compartment in the conventional refrigerator, the grill pan (5) to evenly supply the cold air to the upper and lower centering around the shelf (8) formed horizontally in the freezer compartment (1) The upper and lower cold air discharge holes (5a) (5b) are formed on the upper and lower portions of the shelf (7), respectively, and the upper and lower portions of the shelf (8) through the upper and lower cold air discharge holes (5a) (5b). The cold air discharged to the lower side flows toward the door basket 10a (10b) forming part mounted on the door liner of the freezer compartment door 9, and then returns to the upper surface of the barrier 6 near the freezer compartment door 9. It takes the cold air flow path which flows into 7a after a duct suction.

However, in the freezer compartment cold air supply structure of the conventional refrigerator, the upper region inside the freezer compartment door 9 (indicated by a hatched area in the drawing) during the flow of the cold air leaving the grill pan 5 through the inside of the freezer compartment 1. Temperature is kept relatively high compared to other areas of the freezer compartment 1 because the effect of the discharge cold air is less or less, and is stored in the upper door basket 10a of the freezer door 7 located in this area. In the case of the article there was a problem that the cooling is not done properly.

Therefore, the present invention is to solve the above problems that are pointed out in the freezer compartment refrigerant flow structure of the conventional refrigerator, and the way of the freezer compartment door as a way to smoothly supply the discharge cold air even to the upper corner region of the inside of the freezer compartment door. An object of the present invention is to provide a freezer compartment cold air flow structure of a refrigerator provided with a door basket cooling duct for forming a suction passage of discharge cold air on an inner surface thereof.

In the freezer compartment cold air flow structure of the present invention is a cold air suction hole for the inlet of the cold air discharged into the freezer compartment in the freezer door structure in which the door basket for food storage is installed on the door liner of the freezer compartment door. Technical features are provided in a structure in which an upper door basket cooling duct in which a cold air discharge hole is formed for discharge of cold air introduced through a cold air suction hole is installed in a freezer door liner.

At this time, a portion of the cold air discharged into the freezer compartment inside the freezer compartment door is introduced into the suction duct through the cold air suction hole of the suction duct located above the upper door basket, and introduced into the suction duct. The cold air drops downward from the inside of the suction duct, exits the cold air discharge hole located at the bottom of the lower door basket, and forms a cold air flow path toward the return duct of the barrier.

Matters relating to the above object and technical configuration of the present invention and the resulting effects thereof will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

2 is a side cross-sectional view of a freezer compartment in which the upper door basket cooling duct of the present invention is installed, and FIG. 3 is a perspective view of the upper door basket cooling duct of the present invention. In FIG. 2, the same reference numerals as those in FIG.

As shown, the upper door basket cooling device of the present invention is the cold air generated in the evaporator (2) installed in the rear of the refrigerating chamber (1) by the driving of the blower fan (3) and the shroud (4) and grill pan (4) After cooling the freezer compartment 1 by discharging it into the freezer compartment 1, the cold air that has been heat-exchanged is returned to the freezer compartment cooler which is returned to the evaporator 2 shaft through a return duct 7 formed in the barrier 7. The freezing chamber upper door basket cooling duct 20 is formed on the inner surface of the freezing chamber door 9 to induce some of the freezing chamber discharged cold air to flow downward from the upper inner surface of the freezing chamber door 9.

At this time, the upper door basket cooling duct 20 of the present invention has a cold air suction hole 21 is formed in the upper portion of the front, as shown in Figure 3, through the cold air suction hole 21 A cold air discharge hole 22 is formed to discharge the cold air introduced into the inside and discharged to the outside to the outside, and the door basket cooling duct 20 is located on the inner surface of the freezer compartment door 7. Is fastened to the inner surface of the refrigerating compartment door 9 by fastening the fastening screw 24 into the screw fastening hole 23 formed at the front surface thereof so that the distal end of the fastening screw 24 is inserted into the freezer compartment door 9. It is done.

Meanwhile, the food storage shelf 10 installed on the inner surface of the freezer compartment 7 is mounted outside the door basket cooling duct 2 (1) as shown in FIG. 2, in which case the door basket cooling duct The cold air suction hole 21 of the 20 is positioned above the upper door basket 10 mounting portion, while the cold air discharge hole 22 is adjacent to the return duct entrance 7a of the barrier 6. 20) It is desirable to be located at the bottom.

Looking at the flow of the cold air discharged into the freezer compartment 1 through the cold air discharge hole (5a) (5b) of the grill pan (5) in the freezer compartment in which the upper door basket cooling device of the freezer compartment of the present invention is installed as follows. same.

First, the cold air discharged to the area under the shelf 8 through the lower cold air discharge hole 5b of the grill pan 5 moves to the front side of the freezer compartment 1 and a part thereof is directly sucked into the return duct 7, A part of the rest is sucked into the return duct 7 via the lower door basket 10b mounting portion.

Next, the cold air discharged into the upper freezer compartment area of the shelf 8 through the upper cold air discharge hole 5a of the grill pan 5 is partially dropped through the upper door basket l0a, and then the barrier 6 2) is sucked into the return duct (7), the remaining cold air through the cold air suction hole 21 provided in the upper front of the door basket cooling duct 20 installed on the inner surface of the freezer door (9) duct (20) After entering the interior, the downward movement along the freezing chamber inner wall and then exits the duct 20 outside through the cold air discharge hole 22 is also sucked into the return duct (7).

As described above, in the case of the freezer compartment equipped with the freezer compartment door basket cooling apparatus of the present invention, a part of the discharged cold air is introduced into the door basket cooling duct 20 through the cold air suction hole 21 formed above the upper door basket 10a. As a result of the suction, a cold air flow path is formed in a region above the upper door basket 10a, which is conventionally formed in a relatively high temperature region because the supply of cold air is not smooth. Thus, the front surface of the freezing chamber 1 including the upper door basket 10a. The upper corner region, like the other regions, is directly affected by the discharge cold air.

Therefore, in the freezer compartment equipped with the freezer door basket cooling device of the refrigerator of the present invention, the temperature distribution characteristic of the freezer compartment is improved by maintaining the temperature distribution of the front upper region including the upper door basket of the freezer compartment as the other regions. .

Claims (2)

The freezer compartment cold air flow structure of the refrigerator, characterized in that a portion of the freezer compartment discharge cold air is mounted on an inner surface of the freezer compartment door (7) having a flow path for directing a portion of the freezer compartment (9) from the top to the bottom of the inside of the freezer compartment (9). . According to claim 1, The duct 20 has a cold air suction hole 21 is formed in the upper front, the cold air discharge hole 22 in the lower portion of the front surface adjacent to the return duct suction port 7a of the barrier (6) Freezer compartment cold air flow structure of the refrigerator, characterized in that formed.