KR19990028910U - Cold air supply structure of the refrigerator - Google Patents

Abstract

The present invention allows the cold air supplied into the refrigerating compartment to be uniformly discharged through the left and right sides of the refrigerator compartment so that the food stored in each part of the refrigerating compartment can be refrigerated uniformly, and also the efficient use of the internal space of the refrigerating compartment. It relates to the supply structure.

According to the present invention, there is provided a refrigerating compartment cold air supply structure including an inner case forming an inner wall of the refrigerating compartment and having a plurality of through holes formed therein, and a plurality of cold air discharge holes formed in the left and right directions of the refrigerating compartment and installed in the rear side of the inner case. Providing. The cold air discharge holes are formed at the top, middle, and bottom of the refrigerating chamber, respectively. Due to the above structure, uniform cold air is provided to the left and right sides of the refrigerating chamber, and there is an advantage that the space inside the refrigerating chamber can be efficiently used.

Description

Cold air supply structure of the refrigerator

The present invention relates to a structure for supplying cold air to a refrigerator, and more particularly, to provide uniform refrigeration of food stored in each part of the refrigerator compartment by uniformly discharging the cold air supplied into the refrigerator compartment through each of the left and right sides. It relates to the structure of the cold storage cold air supply.

In general, a refrigerator has a low temperature refrigerant inside the evaporator. At this time, the ambient air around the evaporator exchanges heat with the low temperature refrigerant passing through the evaporator and changes to a low temperature cold. The low temperature cold air is supplied to the freezing compartment and the refrigerating compartment to perform a cooling function and to perform a repetitive circulation flowing back to the evaporator side.

Hereinafter, a cold air supply structure and a cold air supply process to a refrigerating chamber in a conventional refrigerator will be described with reference to the drawings.

1 is a front view of a refrigerator showing the internal structure of a conventional refrigerator. As shown, the inside of the refrigerator is divided into a freezer compartment 1 and a refrigerating compartment 3 by a barrier 2 filled with insulation. Looking at the supply structure of the cold air, a part of the cold air heat exchanged in the evaporator (1a) through which the low-temperature low-pressure refrigerant passes inside, is supplied to the freezer compartment (1) via a shroud (not shown) by the blowing fan (1b) , The remaining part is free-falled through the shroud and supplied to the refrigerating chamber (3).

The supply of cold air to the refrigerating chamber 3 is freely dropped through the refrigerating chamber duct 4 provided in the longitudinal direction on the rear side inside the refrigerating chamber 3, and is provided on the front surface of the refrigerating chamber duct 4. The cold air is discharged from the rear of the refrigerator toward the front through the cold air discharge port 4a.

The cold air supplied to the freezer compartment 1 and the refrigerating compartment 3 through this process becomes relatively high temperature through heat exchange with the food stored therein, and the air having a high temperature is formed inside the barrier 2. The feedback duct (not shown) is moved to the vicinity of the evaporator (1a) again.

Next, the refrigerating chamber duct 4 is attached to the outer surface of the central portion of the inner case (3a) forming the rear wall inside the refrigerating chamber, as shown in Figure 2, the heat transfer to the outside behind the inner case (3a) In order to block the foam material (a) for thermal insulation is filled. In addition, the cold air discharge hole (4a) is formed in the vertical direction in the central portion of the refrigerating chamber duct (4) to supply the cold air to the upper, middle and lower portions of the inside of the refrigerating chamber.

In the case described above, the process of supplying the cold air through the refrigerating chamber duct 4 into the refrigerating chamber, since the cold air discharge hole 4a is formed at the center of the refrigerator, the cold air through the cold air discharge hole 4a is concentrated at the center part. The cold air from the central portion is convexed from side to side in the refrigerating compartment 3 to cool the entire refrigerating compartment.

Therefore, the food placed in the central portion of the refrigerating chamber 3 is directly cooled because it is in direct contact with cold chill at low temperature, while the food placed at the left and right portions is relatively less affected by cold air and thus cannot be cooled sufficiently.

This is a problem that occurs because the cold air through the cold air discharge hole (4a) is concentrated to the central portion. In addition, since the refrigerating compartment 3 stores the refrigerated food, the temperature is maintained at about 0 ° C.-3 ° C., and the temperature detected by the temperature sensor (not shown) installed on both side walls of the refrigerating compartment 3 is the above temperature. If satisfactory, the cold air supply is stopped into the refrigerating chamber (3). However, in the conventional refrigerator, since the cold air of low temperature is discharged to the center portion through the cold air discharge hole 4a, the temperature difference between the center part directly contacting the cold air of the low temperature and the left and right portions spaced apart from the cold air discharge hole 4a is increased. It takes a considerable time until the temperature deviation is eliminated, there is a problem that it is difficult to achieve uniform cooling.

Meanwhile, as illustrated in FIG. 2, the refrigerating chamber duct 4 is positioned on the outer surface of the inner case 3a to occupy a predetermined space inside the refrigerating chamber 3. Accordingly, there is a problem in that the space utilization inside the refrigerating compartment 3 cannot be efficiently performed.

In addition, dew is generated on the outer surface of the refrigerating chamber duct 4 due to the temperature difference between the inside and the refrigerating chamber duct 4 due to the low temperature cold air passing through the refrigerating chamber duct 4, and the dew drops into the refrigerating chamber 3. 3) There was a problem that should be cleaned frequently.

The present invention is to solve the above problems, by providing the cold air supplied to the inside of the refrigerator compartment through each of the left and right parts to provide a refrigerator compartment cold air supply structure that can be properly cooled evenly regardless of the location where the food is stored. Its purpose is to.

Another object of the present invention, by installing the refrigerating chamber duct in the inner case, it is possible to use the refrigerating chamber internal space more efficiently, and to remove the dew generated in the refrigerating chamber duct outer surface to provide a clean refrigerating chamber interior.

1 is a front view showing the internal structure of a conventional refrigerator.

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is an internal front view showing the internal structure of the refrigerator according to the present invention.

4 is a cross-sectional view taken along the line B-B in FIG.

5 is a cross-sectional view taken along the line C-C of FIG.

* Explanation of symbols for main parts of the drawings

10: freezer 12: evaporator

20: refrigerator 22: inner case

22a: Inner case through air 30: Refrigerating chamber duct

32: cold air discharge a: foaming material

The cold air supply structure of the refrigerating compartment according to the present invention for achieving the above object, the inner case forming the inner wall of the refrigerating compartment and having a plurality of through-holes and a plurality of cold air discharge holes formed over the left and right directions of the refrigerating compartment and the inner case back The technical gist is that it is comprised with the refrigerating chamber duct installed in the inside of the refrigerator.

The cold air discharge holes are formed at the top, middle, and bottom of the refrigerating chamber, respectively. Due to the above structure, uniform cold air is provided to the left and right sides of the refrigerating chamber, and there is an advantage that the space inside the refrigerating chamber can be efficiently used.

Next, the refrigerator compartment cold air supply structure of the refrigerator according to the present invention will be described with reference to the drawings.

3 is an internal front view showing the inside of the refrigerator according to the present invention, FIG. 4 is a sectional view taken along the line B-B of FIG. 3, and FIG. 5 is a sectional view taken along the line C-C of FIG.

As shown, some of the cold air generated by heat exchange with the low-temperature refrigerant passing through the evaporator 12 located behind the freezer compartment 10 is supplied to the freezer compartment 10, the remaining cold air is supplied to the refrigerating compartment 20 The basic cold air supply principle is the same as the conventional one, but has a difference in detail in that cold air is supplied to the refrigerating chamber 20.

First, in the present invention, the refrigerating chamber duct 30 for transferring the cold air heat exchanged in the evaporator 12 to the refrigerating chamber 20 is installed on the inner case 22 rear surface. The refrigerating chamber duct 30 is in close contact with the inner case 22 is installed vertically downward. Conventionally, since the refrigerating chamber duct 30 is attached to the front of the inner case 22 to occupy a certain space inside the refrigerating chamber 20, the efficient use of the internal space of the refrigerating chamber 20 could not be achieved. 22) Since it is located at the rear side, it is possible to utilize the internal space of the refrigerator compartment 22 more efficient.

In addition, since the refrigerating chamber duct 30 is located on the inner surface of the inner case 22, the refrigerating chamber duct 30 can be surrounded by the foam material a to maintain heat insulation. That is, since the cold air heat exchanged in the evaporator 12 passes through the inside of the refrigerating chamber duct 30, the cold air is maintained at a relatively low temperature, and the heat insulating material a is surrounded by the surrounding heat insulating material a until the cold air is discharged into the refrigerating chamber 20. Since the heat exchange is blocked by the refrigeration efficiency is higher.

In addition, a plurality of cold air discharge holes 32 are formed on the refrigerating chamber duct 30 to discharge the cold air introduced into the refrigerating chamber duct 30 into the refrigerating chamber 20. The cold air discharge hole 32 is formed in each of the upper, middle and lower portions of the refrigerating chamber as shown in Figure 3, the cold air discharge hole 32 of each portion is formed in a plurality of horizontal direction on the left and right sides Cold air through the cold air discharge hole 32 is to be evenly discharged from the left and right sides of each part of the shelf.

In addition, the through hole 22a is formed on the inner case surface corresponding to the cold air discharge hole 32, and the cold air discharged into the cold air discharge hole 32 is stored in the refrigerating chamber through the through hole 22a of the inner case 22. 20) It will flow inside.

Next, the cold air supply process through the refrigerating chamber cold air supply structure having the above structure will be briefly described.

The cold air driven by the refrigerator and heat-exchanged in the evaporator 12 is partially supplied to the freezing compartment 10, and the remaining cold air is supplied to the refrigerating compartment 20 side. The cold air supplied to the refrigerating chamber 20 is introduced into the refrigerating chamber duct 30 installed at the rear of the inner case 22, and the refrigerating chamber duct 30 surrounded by the foam material a is sufficiently insulated to transfer heat to the outside. It is discharged into the refrigerating chamber 20 through the through-hole 22a formed in the cold air discharge hole 32 and the inner case 22 surface with this prevention.

On the other hand, when the cold air is discharged into the refrigerating chamber 20, since the plurality of cold air discharge holes 32 are formed in the horizontal direction in the left and right at each shelf portion can be evenly discharged to all parts of the horizontal direction refrigerating chamber 20 There is no temperature deviation of each part inside. In addition, the temperature distribution of each part decreases until the inside of the refrigerating chamber 20 reaches the proper temperature due to the cold air discharge, thereby achieving uniform cooling.

As described above, the refrigerating compartment cold air supply structure according to the present invention has the effect of eliminating the subcooling or the weak cooling according to the location of the food stored by eliminating the temperature deviation of each part by the uniform cold air discharge to the left and right sides.

In another effect, the refrigerating chamber duct is also provided on the back of the inner case has the effect that the efficient use of the internal space of the refrigerating compartment.

Another effect is that dew can be prevented from the outer circumferential surface of the refrigerating chamber duct, thereby keeping the inside of the refrigerating chamber clean at all times.

Claims (2)

An inner case forming an inner wall of the refrigerating chamber and having a plurality of holes formed therein; And A refrigerator compartment cold air supply structure, comprising: a refrigerator compartment duct provided in a plurality of cold air discharge holes formed in the left and right directions of the refrigerator compartment and installed at a rear side of the inner case. The refrigerator refrigerator cold air supply structure according to claim 1, wherein the cold air discharge holes are formed at upper, middle, and lower ends of the refrigerating chamber, respectively.