KR100208083B1 - Refrigerator cooling air exit control device - Google Patents

Abstract

The present invention relates to a cold air discharge control apparatus of a refrigerator, and is provided in the center of the rear wall of the refrigerator compartment, a damper having a plurality of discharge holes for discharging cold air into the inside of the refrigerator compartment, and a shutter rotating to close and open the discharge holes. A cover, a motor for generating power to rotate the shutter cover, and a relay means for rotating the shutter cover by receiving the driving force of the motor, thereby preventing the rise of the internal temperature and the defrost time during defrosting operation or opening of the refrigerating compartment door. It is possible to reduce the power consumption by shortening, and to prevent the damage to food due to the increase of temperature in the refrigerator to the maximum.

Description

Cold air discharge control device of refrigerator

The present invention relates to a cold air discharge control apparatus of the refrigerator, and more particularly, to control the discharge area of the damper installed in the refrigerator compartment of the refrigerator at the time of defrosting or opening the refrigerator compartment door.

Generally, an evaporator and a fan are installed in a refrigerator refrigerator (freezer and freezer). As the compressor operates, the evaporator cools the surrounding air by heat exchange of the refrigerant when the liquid refrigerant inside the evaporator evaporates. Is forced to circulate the cooled air around the evaporator into the air.

At this time, the surface of the evaporator freezes the frost due to freezing of the surrounding moisture, which must be properly removed because such a castle significantly reduces the cooling efficiency of the evaporator and increases the load operation rate.

Accordingly, a defrost heater that is electrically heated to dissolve the frost is wired together with the refrigerant pipe in the evaporator of the refrigerator, and during operation of the refrigerator, the defrost heater is operated by removing the frost in addition to the cooling mode for maintaining the temperature in the refrigerator. Defrost mode is included.

Looking at the structure of such a refrigerator, as shown in Figure 1, the freezer compartment 15 and the refrigerating compartment 1 is installed in the upper and lower portions of the refrigerator body 14 having a heat insulating structure, each of the freezer compartment 15 The freezer compartment and the refrigerating compartment doors 16 and 13 are installed in the refrigerating compartment 1 so as to be openable and closed, and the refrigerating compartment 1 is divided into a plurality of shelves 17 for placing food.

In addition, a compressor 19 is installed in the machine room 18 at the lower side of the refrigerator main body 14, and a condenser and a pressure reducer (not shown) are embedded in the refrigerator main body 14 or installed in the machine room 18. When the compressor 19 is operated, an evaporator 12 for cooling the ambient air by heat exchange of the refrigerant to generate cold air in the refrigerator is installed on the rear wall of the freezing chamber 14 and the refrigerating chamber 1, The interconnection leads to a refrigeration cycle.

In addition, a cooling fan 20 is installed at an upper portion of the evaporator 11 to forcibly blow cold air generated in the evaporator 12 to the freezing chamber 15 and the refrigerating chamber 1, and at the center of the rear wall of the refrigerating chamber 1. The rotary vanes 4, which are approximately the same height as the height of the refrigerating compartment 1 and rotated to distribute the cold air passage and the cold air, are installed inside the damper 3a provided at the center of the rear wall of the refrigerating compartment 1, thereby In operation, the rotary vanes 4 rotate to distribute the cold air evenly.

On the other hand, in the defrost mode for removing the frost frozen in the evaporator in such a refrigerator, there are various methods depending on the type of operation or the method of melting the frost, but the defrosting operation lasts a relatively long time so that the temperature inside the refrigerator is high. While still rising, since the compressor 19 and the cooling fan 20 cannot be operated, the food stored in the refrigerator is damaged due to the temperature rise in the refrigerator.

Accordingly, the compressor 19 and the cooling fan 20 are continuously operated for a predetermined time (several minutes) before entering the defrost mode to prevent the food from being damaged due to the rise of the temperature in the refrigerator during the defrosting operation. The pre-cool mode is performed first, and the defrost mode is performed immediately after performing the pre-cool mode.

However, in such a conventional refrigerator, the temperature of the evaporator 12 is considerably lowered by preliminary cooling during the defrosting operation, and when the defrost heater (not shown) is operated in this state, the evaporator 12 The time to melt the frost frozen in, ie the defrost time will be that long. For the above reason, when the defrosting time becomes longer, heat generated in the heater flows into the interior of the refrigerator, thereby increasing the interior temperature. This increases the power consumption for pure defrosting required for the operation of the defrost heater, as well as the power consumption for the overall defrosting, including power consumption according to load operation for preliminary cooling, as well as for preliminary cooling. Including the power consumption according to the load operation, the power consumption of the entire defrost was high.

In addition, when the user opens and closes the freezer compartment and the refrigerating compartment doors 16 and 13 for use of the refrigerator, the inside of the bakery may have a partial temperature increase in the vicinity of the freezer compartment and the refrigerating compartment doors 16 and 13. When the refrigerator door 13, which is frequently used, is opened, the temperature of the inside of the refrigerator increases as cold air in the refrigerator compartment 1 flows out of the refrigerator and hot air is introduced into the refrigerator compartment 1 and the evaporator 12. Because of this, as well as the above-mentioned power consumption increase during the defrosting operation, there is a lot of problems such as damage to the food stored in the refrigerator compartment door 13 is often caused to lower the reliability of the product.

The present invention is to solve the above-mentioned problems, it is possible to control the discharge area of the damper installed in the refrigerator compartment of the refrigerator at the time of defrosting or defrosting when opening the refrigerating chamber door, consumption by shortening the defrosting operation time It is an object of the present invention to provide a cold air discharge control device of a refrigerator that can reduce power and minimize damage of food stored in the refrigerator due to a rise in temperature.

1 is a longitudinal cross-sectional view showing a conventional refrigerator.

2 is a longitudinal sectional view showing a refrigerator according to the present invention;

3 is a perspective view showing the damper of FIG.

4A and 4B are cross-sectional views showing the operating state of FIG. 3.

Explanation of symbols on the main parts of the drawings

One; Cold room 2; Discharge hole

3; Damper 4; Rotating wing

5; Axis 6; Shutter cover

7; Motor 8; Motor shaft

9; First gear 10; Second gear

In order to achieve the above object, the present invention is a damper is formed in the center of the rear wall of the refrigerating chamber is formed with a plurality of discharge holes for discharging the cold air into the inside of the refrigerating chamber, the shutter cover to rotate to close and open the discharge hole, It is achieved by providing a cold air discharge control apparatus for a refrigerator composed of a motor for generating power for rotating the shutter cover and a relay means for rotating the shutter cover by receiving the driving force of the motor.

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

Figure 2 is a longitudinal sectional view showing a refrigerator according to the present invention, Figure 3 is a perspective view showing the damper of Figure 2, Figures 4a and 4b is a cross-sectional view showing the operating state of Figure 3, the present invention is a refrigerator compartment (1) In the center of the rear wall, a damper 3 having a plurality of discharge holes 2 for discharging cold air into the refrigerating chamber 1 is provided at the center of the front surface, and a rotary vane 4 provided inside the damper 3. The shutter cover 6 is rotatably mounted on the shaft 5 to rotate and close the discharge hole 2 during defrosting operation or when the refrigerating chamber door is opened and during cold air discharge. The front of the is formed to be open and both sides closed.

In addition, a motor 7 for generating power for rotating the shutter cover 6 in the forward and reverse directions is provided at one upper side of the shaft 5 of the rotary vane 4, and the motor shaft 8 below the motor 7 is provided. At the end, a first gear 9 that is rotated by the driving of the motor 7 is installed, and the shaft cover 5 of the shutter cover 6 receives the rotational force of the first gear 9 to receive the shutter cover 6. The second gear 10 which meshes with the first gear 9 is rotated so as to be integrated with the upper end of the shutter cover 6.

The operation of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

A plurality of discharge holes 2 formed in the center of the front surface of the damper 3 for discharging cold air into the refrigerating chamber 1 and the rotary vanes 4 in the damper 3 are installed in the center of the rear wall of the refrigerating chamber 1 of the refrigerator. When the opened front surface of the shutter cover 6 rotatably installed on the shaft 5 of the upper side coincides with and opens as shown in FIG. 4A, driving of the motor 11 installed on the top of the shaft 5 of the rotary vane 4 is performed. Cold air evenly distributed by the rotation of the rotary blade 4 according to the smooth state can be supplied to the interior of the refrigerating chamber (1) through the discharge hole (2) of the damper (3).

Then, when the refrigerator enters the defrost mode in order to remove the frost frozen in the evaporator 12, a separate sensing means for detecting the temperature in the refrigerator is detected and at the same time, one side of the upper part of the shaft 5 of the rotary vane 4 The first gear 9 installed at the end of the motor shaft 8 below the motor 7 rotates as the motor 7 installed in the motor 7 rotates in the forward direction and at the same time, the shaft 5 at the top of the shutter cover 6. The shutter cover 6 is rotated 180 ° as shown in FIG. 4A as the second gear 10, which is integrally installed with the upper end of the shutter cover 6 and engaged with the first gear 9, rotates. .

Therefore, as the shutter cover 6 closes the discharge hole 2 of the damper 3 in the state as shown in FIG. 4B, heat generated from the defrost heater during defrosting operation passes through the interior of the damper 3 to allow the evaporator ( 12) can completely block the penetration.

When the defrosting operation of the refrigerator is finished by the above operation, the first gear 9 installed at the end of the motor shaft 8 below the motor 7 rotates as the motor 7 is driven in the reverse direction and rotates again. The shutter cover 6 is mounted on the shaft 5 of the upper end of the shutter cover 6 integrally with the upper end of the shutter cover 6 and rotates as the second gear 10 engaged with the first gear 9 rotates. Since it rotates 180 ° in the state as shown in FIG. 4B, by opening the discharge hole 2 of the damper 3 in the same state as shown in FIG. 4A, it is possible to efficiently supply cold air to the inside of the refrigerator through the discharge hole 2.

On the other hand, even when the user opens the refrigerating compartment door 13, a separate sensing means detects the open state of the refrigerating compartment door 13, thereby closing the discharge hole 2 of the damper 3 in the same operation as described above. Therefore, it is possible to prevent the outside hot air from penetrating the evaporator 12 through the damper (3).

As described above, during the defrosting operation of the refrigerator or the opening of the refrigerating compartment door, it is possible to prevent the temperature rise in the refrigerator to effectively maintain a constant temperature, and to shorten the time required for defrosting, thereby reducing the power consumption of the refrigerator. It is possible to prevent the stored food from being damaged by the temperature rise in the refrigerator to the maximum extent.

As described above, the present invention can variably adjust the discharge area of the damper installed in the refrigerator compartment of the refrigerator at the time of defrosting or opening the refrigerator compartment door to prevent the rise of the internal temperature and at the same time shorten the time required for defrosting It is possible to reduce the power consumption, and to minimize the damage to the food stored in the interior due to the rise in the temperature is a very useful invention that greatly improved the efficiency and reliability of the product.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (5)

A damper installed at the center of the rear wall of the refrigerating chamber and having a plurality of discharge holes for discharging cold air into the refrigerating chamber; A shutter cover rotating to close and open the discharge hole; A motor for generating power for rotating the shutter cover; The cold air discharge control device of the refrigerator, characterized in that consisting of a relay means for rotating the shutter cover in response to the driving force of the motor. The cold air discharge control apparatus of claim 1, wherein the shutter cover is rotatably installed on an upper portion of a shaft of a rotary blade installed inside the damper, and the front surface is opened and both sides are closed. The shutter cover according to claim 1, wherein the relay means is provided at the end of the motor shaft below the motor installed on one side of the shaft upper part of the rotary vane and is rotated by the driving of the motor, and receives the rotational force of the first gear. Cold air discharge control device of the refrigerator, characterized in that consisting of a second gear meshing with the first gear for rotation. The apparatus of claim 3, wherein the second gear is integrally formed with an upper end of the shutter cover on an axis of an upper end of the shutter cover. The apparatus of claim 1, wherein the motor is driven in both directions to rotate the shutter cover in the forward and reverse directions.

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