KR20040067206A - Refrigerator - Google Patents

Abstract

PURPOSE: Structure of a horizontal screen of a discharge port in a refrigerator compartment for preventing supercooling is provided to keep food fresh by restricting food in front of the discharge port from freezing, and to reduce deviation of temperature in the refrigerator compartment by forcibly circulating cold air from the discharge port and distributing cold air evenly in the refrigerator compartment. CONSTITUTION: A horizontal screen of a cold air discharge port in a refrigerator compartment is composed of a first horizontal screen(8) fixed and supported in front of the cold air discharge port of the refrigerator compartment and composed of plural cold air discharge holes, and a second horizontal screen(9) combined with the front of the first horizontal screen with sliding and composed of plural cold air discharge holes(9a). Supporting bars(8a) are formed in the rear part of the first horizontal screen, and fixed to the sidewall of the refrigerator compartment. With moving the second horizontal screen right and left, cold air flow from the cold air discharge port is regulated by adjusting the opening degree of the discharge hole.

Description

Barrier structure of the outlet of the refrigerating compartment for preventing overcooling

The present invention relates to the structure of the outlet port of the refrigerator compartment for minimizing the temperature variation in the refrigerator compartment in storing food and the like in the refrigerator compartment, and minimizing the temperature variation in the refrigerator compartment. This can be achieved by installing barriers that can be stored and stored.

1 is a view showing a state of opening a door of a conventional refrigerator, Figure 2a is a view showing a cold air discharge port in the refrigerating chamber according to the prior art, Figure 2b is a cold air discharge port through the cold air discharge port according to the prior art forward It is a figure which shows that.

Referring to these drawings, a refrigerator is generally divided into a freezer compartment (1), a refrigerating compartment (2), and a beverage container (3) formed on the inner wall surface of the door (4), so as to make ice or freeze food, etc., if necessary. Long-term freezing or food storage at an appropriate low temperature.

In particular, in the case of the refrigerating compartment, the interior is divided into several shelves 6, and the rear side of the shelf 6 is provided with a cold air discharge port 5 for discharging the cold air of the freezing compartment 1 in the front direction. It is kept at low temperature.

That is, the cold air is discharged to the front from the cold air discharge port 5 installed in the rear of the refrigerating chamber, the food container 7 containing the food and the like is placed on the shelf (6), but directly in front of the cold air discharge port (5) It may be stored away from the front.

In this case, in the case of the food container 7 placed directly on the front surface of the cold air discharge port 5, the food container 7 is directly in contact with the low-temperature air (cold air of about 14 degrees below zero) of the freezing chamber, and is immediately cooled by supercooling rather than cold storage at low temperature. Immediately frozen and stored, especially if the frozen food is a food that requires freshness such as vegetables, the problem is that the food is spoiled by supercooling.

In addition, when cold air is discharged only to the front surface from the cold air discharge port 5, the temperature of the place where the cold air is directly received and the place where it is not has a large deviation, resulting in a temperature difference in the refrigerating chamber.

The present invention has been made in view of the above-mentioned problems, and disperses the cold air discharged from the cold air outlet at the same time not only in the front direction but also in the lateral direction, or in particular, discharges the low-temperature air discharged to the front surface. It aims to be able to adjust appropriately in consideration of the situation according to the amount of food placed in.

1 is a view showing a state of opening a door of a conventional refrigerator.

2A is a view showing a cold air discharge port in a refrigerating chamber according to the prior art.

Figure 2b is a view showing that the cold air is discharged forward through the cold air discharge port according to the prior art.

Figure 3a is a view showing a diaphragm structure of the refrigerator compartment discharge port according to the present invention.

3B is a view showing that the cold air is discharged to the side and forward through the diaphragm structure of the cold air discharge port according to the present invention.

4A is a view showing a first barrier in FIG. 3A.

4B is a view showing a second barrier in FIG. 3A.

5 is a view showing that the second diaphragm operates by the transmission unit.

6 is a view showing that the operation of the electric drive is controlled by a sensor.

<Description of Symbols for Main Parts of Drawings>

1: freezer 2: cold storage 3: drinks stored

4: door 5: cold air outlet 6: shelf

7: food container 8: first barrier 8a: support

8b: cold air discharge hole 9: second diaphragm 9a: cold air discharge hole

9b: locking step 9c: side gear portion 10: power portion

10a: gear portion 11: switch 12: sensor

The diaphragm structure of the refrigerating compartment discharge port for preventing overcooling according to the present invention comprises: a first diaphragm having a plurality of discharge holes fixed to the front surface of the refrigerating compartment discharge port and fixed at a predetermined distance; A second barrier is provided so as to be slidably coupled to the front of the first barrier and have a plurality of discharge holes.

Hereinafter, a preferred embodiment of the diaphragm structure of the refrigerating compartment discharge port for preventing undercooling according to the present invention will be described with reference to the accompanying drawings.

Figure 3a is a view showing the diaphragm structure of the refrigerator compartment discharge port according to the present invention, Figure 3b is a view showing that the cold air is discharged to the side and forward through the diaphragm structure of the cold air discharge port according to the present invention, Figure 4a is Figure 3a FIG. 4B is a view showing a first barrier, and FIG. 4B is a view showing a second barrier in FIG. 3A.

Referring to these drawings, the first diaphragm 8 for dispersing and discharging these cold air is supported / fixed on the entire surface of the cold air discharge port of the refrigerating chamber, and the front surface of the first diaphragm 8 is held by sliding while maintaining contact. The actuated second diaphragm 9 is coupled.

When the coupling relationship between the first and second diaphragms 8 and 9 and the discharge paths of the cold air are improved by the first and second diaphragms 8 and 9 are described in detail, the front surface of the cold air discharge port of the refrigerating chamber is The first diaphragm 8 for discharging and discharging is supported / fixed, and the support 8a formed on the rear surface of the first diaphragm 8 is fixed to the side surface of the refrigerating chamber in which the cold air discharge port 5 is formed. In addition, a plurality of cold air discharge holes 8b for discharging a part of the cold air discharged to the front surface are provided on the front surface of the first diaphragm 8.

In addition, the front surface of the first diaphragm 8 is coupled to be slidable while the second diaphragm is in close contact with the first diaphragm 8, which includes a plurality of locking jaws 9b formed at upper and lower sides of the second diaphragm 9. It is possible because it is coupled to the diaphragm, and the cold air discharge hole 9a for discharging and discharging the cold air to the front surface of the second diaphragm 9 is provided in the same manner as the first diaphragm 8, By moving the second diaphragm 9 to the left and right, the opening amount of the discharge hole is changed by the interaction between the cold air discharge hole 8b and the cold air discharge hole 9a, so that the entire surface is opened from the cold air discharge port 5. The amount of cold air discharged in the direction can be adjusted variably.

That is, the low temperature cold air discharged from the cold air discharge port 5 is discharged to the side by hitting a part of the first diaphragm, and part of the cold air is a mutual position of the cold air discharge hole 8b and the cold air discharge hole 9a. It is discharged to the front direction variably by the opening ratio according to.

Therefore, the cold air discharged from the cold air discharge port 5 is partially discharged to the front, and partly to the side, thereby preventing overcooling of food and the like placed on the front of the steam discharge port 5.

FIG. 5 is a view showing that the second diaphragm operates by the transmission unit as another embodiment.

Referring to FIG. 5, unlike the case of adjusting the opening ratio of the cold air discharge hole by sliding the second diaphragm 9 to the left / right by hand, the second diaphragm is driven by a power unit such as a motor. .

That is, when the switch 11 is operated to drive the power unit 10 such as a motor, the gear unit 10a connected thereto interlocks the side gear unit 9c formed on the upper side of the second diaphragm 9 to finally operate. As a result, the second diaphragm 9 is slid to the right or to the left to change the opening ratio of the cold air discharge hole.

6 is a view showing that the operation of the transmission unit is controlled by a sensor as another embodiment;

Referring to FIG. 6, it can be said that a large difference is applied to a sensor that replaces the role of the switch 11 in FIG. 5. That is, the sensor 12 is provided immediately adjacent to the power unit 10, and detects whether food is placed on the front of the sensor 12 or not, and when it is detected that food is placed, the cold air is prevented to prevent overcooling of the food. When the second diaphragm 9 is operated in a direction of lowering the opening ratio of the discharge hole, and if it is detected that food is not placed, there is no fear of overcooling of the food. Therefore, the second diaphragm 9 is moved in a direction of increasing the opening ratio of the cold air discharge hole. It works.

The diaphragm structure of the refrigerating compartment discharge port for preventing overcooling according to the present invention has an effect of preventing foods and the like located directly in front of the discharge port from being frozen by subcooling, thereby maintaining the freshness of the foods and the like.

In addition, another effect according to the present invention is that the cold air discharged from the discharge port is forced to the side, the cold air is evenly diffused in the refrigerating chamber has the effect of reducing the temperature variation in the refrigerating chamber to a minimum.

Claims (6)

A first diaphragm fixed to be spaced a predetermined distance apart from the front surface of the discharge port of the refrigerating chamber and having a plurality of discharge holes on the front surface thereof; Barrier structure of the refrigerating compartment discharge port for preventing subcooling, characterized in that the second barrier is provided with a plurality of discharge holes are coupled to each other in the front of the first barrier. The method of claim 1, The first diaphragm is a diaphragm structure of the refrigerating chamber discharge port for preventing the supercooling, characterized in that a plurality of supports spaced apart from a predetermined distance from the discharge port, the support is fixed to the front of the discharge port. The method of claim 1, The second diaphragm is a diaphragm structure of the refrigerating compartment discharge port for preventing undercooling, characterized in that it has a plurality of locking jaws in close contact with the first diaphragm to enable sliding. The method of claim 1, The second diaphragm is a diaphragm structure of the refrigerating compartment discharge port for preventing undercooling, characterized in that the front surface is provided with a handle to facilitate operation. The method of claim 1, wherein And a drive unit for driving the second diaphragm and a switch unit for applying power to the drive unit. The method of claim 1, wherein And a driving unit for driving the second diaphragm and a sensor for sensing an internal temperature and controlling the driving unit according to the sensed temperature.