KR0175339B1 - Room chamber temperature maintenance apparatus of a refrigerator and the apparatus thereof - Google Patents

Abstract

The present invention relates to a refrigerator compartment temperature maintaining apparatus and a method of a refrigerator, and to exchange heat with air in the freezer compartment (1) and the refrigerator compartment (2) separated in the partition (10), and the air inside the freezer compartment (1) and the refrigerator compartment (2). A duct fan 4a for blowing the evaporator 3, cold air heat exchanged from the evaporator 3 to the freezing chamber 1 and the refrigerating chamber 2, and a duct fan motor for driving the duct fan 4a ( 4), a damper 6 for introducing and blocking cold air blown from the duct fan motor 4 into the refrigerating chamber 2, a damper motor 6a for driving the damper 6, and the freezing chamber ( When the internal temperature of 1) reaches the set temperature and stops the operation of the compressor (8), the freezer compartment cold blocking plate which opens and closes the passage of the freezer compartment (5) to block the inflow of cold air into the freezer compartment (1). 7) and a freezing unit for driving the freezing chamber cold air blocking plate 7 to open and close the passage of the freezing chamber duct 5; The sealant motor 9 is provided characteristically.

Therefore, the present invention, when the internal temperature of the freezer compartment reaches the set temperature and the compressor is stopped and does not satisfy the defrosting operation conditions, the freezer compartment air-cooled plate heats the heat by the evaporator by driving the duct fan motor in a state in which the passage of the freezer compartment is closed. It reduces the defrosting time by reducing the amount of frost in the evaporator by only allowing the cold air to flow into the refrigerating chamber. It is effective to maintain freshness.

Description

Refrigerator room temperature maintaining apparatus and method

The present invention relates to a refrigerator compartment temperature maintaining apparatus and method of the refrigerator, and in particular, when the internal temperature of the freezer compartment reaches a set temperature to stop the operation of the compressor, the cold air heat exchanged in the evaporator using a freezer compartment air cooler blocking plate installed in the freezer compartment duct. The present invention relates to a refrigerator compartment temperature maintaining apparatus and a method of controlling the internal temperature of the refrigerator compartment by introducing only the refrigerator compartment.

In the conventional refrigerator, when the freezer temperature detected by the freezer temperature sensor provided in the freezer is lowered and the freezer set temperature is reached, the compressor and the duct fan are stopped, and the freezer set temperature is increased by increasing the freezer set temperature. If exceeded, the compressor and duct fan are driven to control the internal temperature of the freezer compartment.

When the compressor stops running, the evaporator that exchanges heat with the air in the freezer compartment increases its surface temperature from -30 ℃ to -16 ℃ .If the surface temperature of the evaporator rises, the cold heat exchanged in the evaporator cools the freezer compartment. It is unsuitable for causing the internal temperature of the freezer compartment to rise rather than stopping the operation of the duct fan installed near the evaporator to stop the operation of blowing the cold air.

In addition, when the temperature inside the refrigerator compartment sensed by the refrigerator compartment temperature sensor provided in the refrigerator compartment decreases and reaches the refrigerator compartment set temperature, the damper is closed to block the inflow of cold air exchanged from the evaporator to the refrigerator compartment, and the temperature inside the refrigerator compartment rises. When the refrigerator compartment temperature is exceeded, the damper is opened to allow cold air to flow into the refrigerator compartment, thereby controlling the internal temperature of the refrigerator compartment.

However, in the prior art, when the internal temperature of the freezer compartment and the refrigerating chamber reaches the set temperature, both the compressor and the duct fan are regularly scheduled, so that the cold air exchanged in the evaporator is distributed into the duct without entering the freezer compartment and the refrigerating compartment, and the upper portion of the freezer Since the frost on the surface of the to increase the amount of frost defrosting, the refrigeration capacity is lowered when the compressor is restarted, the defrosting time is long, there is a problem that the consumption heat increases.

An object of the present invention is to block the passage of the freezing chamber duct so that only the cold air heat exchanged from the evaporator flows into the refrigerating chamber when the internal temperature of the freezer compartment reaches the set temperature to stop the operation of the compressor, and the duct fan is driven to form an idea in the evaporator. The present invention provides a refrigerator compartment temperature maintaining apparatus and method for reducing the defrosting time during defrosting operation and controlling the internal temperature of the refrigerator compartment without reducing the freezer refrigerating ability when the compressor is restarted by reducing the amount.

1 is a cross-sectional view showing a cold air circulation state during the refrigeration operation in accordance with the present invention.

2 is a cross-sectional view showing a cold air circulation state when the driving of the compressor is stopped during the refrigeration operation according to the present invention.

Figure 3 is a cross-sectional view showing a cold air circulation state when opening and closing the freezer compartment cold air blocking plate according to the present invention.

Figure 4 is a schematic perspective view of a freezer compartment cold blocking plate according to the present invention.

5 is a control block diagram of a refrigerator applied to the present invention.

6 is a flowchart illustrating a method for maintaining a refrigerator compartment temperature of a refrigerator according to the present invention.

7 is a timing diagram showing an output waveform of each part according to the present invention.

* Explanation of symbols for main parts of the drawings

1: freezer 2: cold storage room

3: evaporator 4: duct fan motor

5: Freezing chamber Doc 6: Damper

7: freezer cold air blocking plate 8: compressor

9: freezer chamber motor 10: bulkhead

A: Freezer compartment temperature sensor part B: Refrigerator compartment temperature sensor part

C: Defrost timer D: Mycom

E: Pressure part moving part bar: Defrosting part

Company: Doc Fan Motor Driving Unit: Refrigerated Room Damper Driving Unit

Auto: Doc Motor Drive Car: Fan Motor Speed Control

An object of the present invention as described above is a freezer compartment and a refrigerating compartment separated by a partition wall, an evaporator provided in the partition wall for heat exchange with the high-temperature air of the freezer compartment and the refrigerating compartment, the low-temperature low-pressure refrigerant heat exchanged in the evaporator at a high temperature and high pressure A compressor for compressing, a duct fan installed at the rear of the evaporator to blow the cold air heat-exchanged by the evaporator into the freezer compartment and the refrigerating chamber, and a freezing chamber duct for introducing the cold air blown by the duct fan into the freezer compartment; A refrigerator having a damper for introducing cold air blown by the duct fan into the refrigerating compartment, wherein the high temperature of the freezing compartment reaches a set temperature to stop the compressor and exchange heat in the evaporator when the defrosting operation is not performed. The cold air blown by the duct pan can only flow into the refrigerator compartment. The freezer compartment cold cutoff comprises a support plate fixed to both sides of the freezing chamber duct and a rotating plate rotatably installed in parallel on the support to close the passage of the freezing chamber duct, and a connecting lever moving forward and backward to rotate the rotating plates. plate; And a freezer chamber motor installed in the freezer chamber duct so as to advance and retract the connection lever of the freezer compartment cold blocking plate.

The object of the present invention as described above is that when the freezing temperature of the freezer compartment is higher than the set temperature and the refrigeration thermostat is driven and the defrosting operation conditions are not satisfied, the compressor and the duct fan motor are driven to introduce the cold air exchanged from the evaporator into the freezer compartment and the refrigerating compartment. Refrigeration and refrigerating operation step of controlling the temperature inside the refrigerator, and the defrosting operation step of removing the frost formed on the evaporator by stopping the compressor and the duct fan motor when the refrigeration thermostat is driven and satisfies the defrosting operation conditions In the refrigerating chamber temperature maintaining method, the freezer chamber motor is set so that the freezer compartment air blocking plate blocks the passage of the freezing chamber duct when the internal temperature of the freezer compartment falls below the set temperature and the freezing thermostat does not operate and satisfies the defrosting operation condition. A duct motor driving step of driving; A compressor driving stop step of stopping driving of the compressor when a passage of the freezing chamber duct is blocked by the duct motor driving step; A duct fan motor driving step of driving the duct fan motor so that the cold air heat exchanged by the evaporator flows into the refrigerating compartment when the compressor is stopped; A fan motor speed adjusting step of adjusting a rotation speed of the duct fan motor according to the internal temperature of the refrigerating chamber when cold air flows into the refrigerating chamber by the duct fan motor driving step; A damper thermostat driving step of driving a damper thermostat to sense a high internal temperature of the refrigerating compartment; And a refrigerating chamber damper driving step of opening and closing the damper to open and close the cold air blown by the duct fan motor in accordance with the internal temperature of the refrigerating chamber sensed in the damper thermophering step.

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

1 is a cross-sectional view showing a cold air circulation state during the refrigeration operation in accordance with the present invention.

As shown, the present invention provides a freezer compartment (1) and the refrigerating compartment (2) separated in the partition 10, the evaporator (3) for heat exchange with the air in the freezer compartment (1) and the refrigerating compartment (2), and The duct fan 4a which blows the cold air heat-exchanged from the evaporator 3 to the said freezer compartment 1 and the refrigerating compartment 2, the duct fan motor 4 which drives the said duct fan 4a, and the said duct pan And a damper 6 for introducing and blocking cold air blown from the motor 4 into the refrigerating chamber 2, and a damper motor 6a for driving the damper 6. FIG.

In addition, the present invention is a passage of the freezing chamber duct 5 to block the inflow of cold air into the freezer compartment 1 when the internal temperature of the freezer compartment 1 reaches a set temperature to stop the operation of the compressor (8). And a freezer compartment cold motor blocking plate (7) for driving the freezer compartment cold air blocking plate (7) to open and close the freezer compartment cold air blocking plate (7) to open and close the freezer compartment (5).

As shown in FIG. 1, the compressor 8 and the duct fan 4a are driven when performing a freezing freezing operation in which cold air is introduced into the freezing compartment 1 and the refrigerating compartment 2 to adjust the internal temperature of the refrigerator. The air inside the freezer compartment 1 and the refrigerating compartment 2 is sucked into the evaporator 3 provided in the partition 10 by heat of the fan 4a, and is heat-exchanged, and then the freezer compartment 5 again through the freezer compartment 5. The freezing compartment 1 and the refrigerating compartment 2 are respectively cooled through a circulating process which flows into the refrigerating compartment 2 by introducing the damper 6 and flowing into the refrigerating compartment 2 at the same time.

At this time, the freezing chamber cold air blocking plate 7 is in a state in which the passage of the freezing compartment 5 is opened so that the cold air heat exchanged by the evaporator 3 can pass therethrough.

In addition, when the internal temperature of the freezer compartment 1 reaches the set temperature as shown in FIG. 2 and the driving of the compressor 8 is stopped, the surface temperature of the evaporator 3 is raised to about -16 degrees. However, the duct fan motor 4 continues to rotate to rotate the duct fan 4. Accordingly, the cold air heat exchanged by the evaporator 3 is blown to the inlet side of the freezing chamber duct 5 and the inlet side of the damper 6, wherein the freezing chamber cold air blocking plate 7 is the freezing chamber duct 5. Since the passage of the) is closed, the cold air blown to the inlet side of the freezing chamber duct 5 does not flow into the freezing chamber 1, while the damper 6 is opened to be heat exchanged in the evaporator 3. The cold air blown by the duct pan 4a is introduced into the refrigerating chamber 2.

The damper 6 is opened and closed according to the internal temperature of the refrigerating compartment 2, and the damper 6 is opened and closed by the damper driver 6a.

Figure 3 is a cross-sectional view showing a cold air circulation state when opening and closing the freezer compartment cold air blocking plate according to the present invention, Figure 4 is a schematic perspective view of the freezer compartment cold air blocking plate according to the present invention.

The freezing compartment cold air blocking plate 7 is installed in a passage of the freezing chamber duct 5, and supports the support 7a fixed to both sides of the freezing chamber duct 5 and the passage of the freezing chamber duct 5. The support 7a consists of a rotating plate 7b rotatably installed in parallel, and a connecting lever 7c advancing left and right to rotate the rotating plate 7b.

The connecting lever 7c moves back and forth by the forward and reverse rotation of the freezing chamber duck motor 9 to rotate the rotary plates 7b.

As shown in (a) of FIG. 3, when the internal temperature of the freezer compartment 1 reaches a set temperature in the freezer refrigerating operation and the driving of the compressor 8 is stopped, the freezer compartment air conditioner 7 is closed and the The duct fan motor 4 is driven so that the cold air heat exchanged in the evaporator 3 is blocked at the inlet side of the freezing chamber duct 5 and only the cold air flows into the freezing chamber 2.

In addition, when the freezing compartment 1 and the refrigerating compartment 2 are cooled by a freezing refrigerating operation, the freezing compartment freezer blocking plate 7 opens the freezing chamber duct as shown in FIG. Heat exchanged by air) and blown by the driving of the duct fan motor 4 to be introduced into the freezing chamber 1 and the refrigerating chamber 2 through the freezing chamber duct 5 and the damper 6, respectively. do.

5 is a control block diagram of a refrigerator according to the present invention, a freezer compartment temperature sensor unit (a) and a refrigerator compartment temperature sensor unit (b) for detecting internal temperatures of the freezer compartment 1 and the refrigerating compartment 2, respectively; From the defrost timer (C) and the freezer compartment temperature sensor unit (A) and the refrigerating compartment temperature sensor unit (B) and the defrost timer (C) to measure the defrost time by removing the defrost formed on the evaporator (3). A microcomputer (d) for controlling each part by receiving a signal input and outputting a control signal according to a predetermined program; a compressor driver (e) for driving on / off driving a control signal from the microcomputer (d); (D) receiving a control signal to drive the heater to remove the defrost of the evaporator (3) and the control signal from the microcomputer (d) receives the duct fan motor (4) Doc Fan Motor Drive G) and a refrigerating chamber damper driver (h) for driving the damper motor (6a) by receiving a control signal from the microcomputer (d) and the compressor (8) when the compressor (8) stops driving. A duct motor driving part for driving the freezer compartment motor 9 to open and close the freezer compartment cold cutoff plate 7 by receiving a control signal from a microcomputer (d) and a control signal from the microcomputer (d) It is composed of a fan motor speed control unit (car) for adjusting the rotational speed of the duct fan motor (4).

The freezer compartment temperature sensor unit (A) is installed in the freezer compartment (1) is preferably implemented as a freezing thermostat that is turned on, off in accordance with the internal temperature of the freezer compartment (1), the refrigerator compartment temperature sensor unit (b) is the refrigerator compartment ( B) installed in the refrigerating chamber damper thermostat, which is turned on and off according to the internal temperature of the refrigerating chamber 2, is preferably implemented.

6 is an operation flowchart of a method for refrigerating a refrigerator compartment temperature of a refrigerator according to the present invention.

First, in the case of performing the refrigeration refrigerating operation, if the refrigeration thermo drive determination step (50) and the refrigeration thermo drive determination step (50) to determine the driving state of the refrigeration thermostat in the state that is driven by the power supply to the refrigerator, Defrost operation determination step (51) for determining whether the defrost operation, the duct motor driving step (52) for opening the freezer compartment cold air blocking plate (7) if the defrost operation in the defrost operation determination step 51 and the compressor (8) a duct fan for driving the duct fan motor 4 to drive the compressor driving step 53 and the cold air heat-exchanged in the evaporator 3 to the freezing compartment 1 and the refrigerating compartment 2. Fan motor speed control for adjusting the rotational speed of the duct fan motor 4 being driven according to the temperature change of the refrigerating chamber 2 cooled by the motor driving step 54 and the duct fan motor driving step 54. Step 55, and the dam driving the cold room damper thermo Depending on the temperature of the refrigerating compartment detected by the thermodynamic driving stage 56 and the damper thermodynamic driving stage 56 comprises a refrigerator compartment damper driver stage (57) operating to open and close the damper (6).

In addition, the defrosting operation for removing the defrost formed on the evaporator (3) is a duct motor driving stop step (58) for blocking the freezer compartment cold air blocking plate (7) if the defrosting operation in the defrosting operation determination step (51), Compressor driving stop step 59 for stopping the drive of the compressor 8, duct fan motor driving stop step 60 for stopping the driving of the duct fan motor 4, and closing the damper 6 In order to drive the damper motor (6a) to the refrigeration chamber damper driving stop step (61).

In addition, when the operation of the freezing thermostat is stopped in the freezing thermo-drive determination step 50, the freezer compartment motor 9 to close the freezer compartment cold blocking plate 7 to block the passage of the freezer compartment 5. ), The compressor 8 is stopped by the duct motor driving step 62 of driving the compressor, the compressor driving stop step 63 of stopping the driving of the compressor 8, and the compressor driving stop step 63. The duct fan motor driving step 54 for driving the duct fan motor 4 and the duct fan motor being driven in accordance with the temperature change of the refrigerating chamber 2 cooled by the duct fan motor driving step 54. Fan motor speed adjusting step 55 for adjusting the rotational speed of (4), a damper thermostat step 56 for driving the cooling chamber damper thermostat, and the temperature of the refrigerating chamber detected in the damper thermostat driving step 56 In accordance with the refrigerator compartment damper driving step (57) for opening and closing the damper (6) in accordance with Is done.

Referring to the effects of the present invention configured as described above are as follows.

First, when power is applied to the refrigerator, the microcomputer (D) is based on the internal temperatures of the freezer compartment 1 and the refrigerating compartment 2 detected by the freezer compartment temperature sensor unit A and the refrigerating compartment temperature sensor unit B. A freezer refrigerating operation for cooling the freezer compartment 1 and the refrigerating compartment 2 is performed. When the internal temperature of the freezer compartment 1 does not reach a set temperature, that is, as shown in FIG. As described above, when the refrigeration thermostat is on, the microcomputer (d) goes to the defrosting operation determining step 51 and determines whether the defrosting operation is performed.

If the defrosting operation is not in the defrosting operation step 51, the microcomputer (d) goes to the doc motor driving step 52 and outputs a control signal to the doc motor driving part (i), as shown in (c) of FIG. As described above, the freezing chamber shut motor 9 is driven to open the freezing compartment blocking plate 7 as shown in FIG.

Subsequently, the microcomputer (d) goes to the compressor driving step 53 to control the compressor driving part E to drive the compressor 8 as shown in FIG. 7E, and then the duct fan motor driving step. Go to (54) and control the fan motor driving unit (4) as shown in Fig. 7 (f) to drive the duct fan motor (4) in the evaporator (3) as shown in FIG. The heat exchanged cold air (about) -28 ° C. to −30 ° C. is introduced into the freezing compartment 1 through the freezer compartment cold blocking plate 7 and introduced into the refrigerating compartment 2 through the damper 6. (1) and the refrigerator compartment 2 are cooled.

In addition, the microcomputer (d) goes to the fan motor speed adjusting step 55 to control the fan motor speed adjusting unit (car) according to the temperature of the freezing chamber 1 and the refrigerating chamber 2 and the duct fan motor ( 4) the rotational speed is controlled, and the microcomputer (d) moves to the refrigerator compartment damper thermo driving step (55) and senses the internal temperature of the cooling chamber (2) by the inflow of cold air, and in the microcomputer (d), the refrigerator compartment damper Going to the driving step 57 to control the refrigerating chamber damper driving unit (h) to open and close the dipper 6 to cool the refrigerating chamber (2).

When the defrost time measured by the defrost timer (c) arrives as shown in FIG. 7 (d) during the freezing and cooling operation to cool the freezing compartment 1 and the refrigerating compartment 2 of the refrigerator as described above, that is, Go to the defrosting operation determination step 51 and in the case of defrosting operation, the microcomputer (d) goes to the doc motor driving step 58 and controls the doc motor driving part (child) as shown in FIG. After closing the freezing chamber duct refrigeration blocking plate (7), go to the compressor driving step (59) to control the compressor driving part (e) to stop the compressor (8) driving as shown in FIG. The microcomputer (d) goes to the duct fan motor stop step 60 to control the duct fan motor driving unit (4) to drive the duct fan motor 4 as shown in FIG. Stop it.

Subsequently, the microcomputer (d) goes to the refrigerating chamber dipper blocking step 61 to control the refrigerating chamber damper driving unit (car) to close the damper 6 and to control the defrosting operation unit (bar) to drive a heater. The defrosting operation of removing the defrost formed on the evaporator 3 is performed.

On the other hand, during the freezer operation to cool the freezer compartment 1 and the refrigerating compartment 2, the microcomputer (d) goes to the freezing thermo-drive determination step 50 and the internal temperature of the freezer compartment 1 reaches a set temperature. In one case, that is, if the refrigeration thermostat is turned off as shown in FIG. 7 (b), the microcomputer (d) goes to a doc motor driving step 62 and outputs a control signal to the doc motor driving part (i) to FIG. As shown in (c), the freezing chamber duct motor 9 is driven to block the freezing compartment cold air blocking plate 7 as shown in FIG.

Subsequently, the microcomputer (d) goes to the compressor driving stop step 63 to stop the compressor 8 by controlling the compressor driving unit e as shown in FIG. D) Go to the duct fan motor driving step 54 to control the duct fan motor (4) to drive the duct fan motor 4 as shown in Fig. 7 (f), as shown in Figure 2 The cold air heat-exchanged in the evaporator (3) is introduced into the refrigerating chamber (2) and cooled. The microcomputer (d) goes to the fan motor speed adjusting step (55) and controls the fan motor speed adjusting unit (car) according to the internal temperature of the refrigerating chamber (2) which is cooled by inflow of cold air. ), And the microcomputer (D) goes to the refrigerating chamber damper seedling driving step 55 and senses the internal temperature of the refrigerating chamber 2 by the inflow of cold air, and then the microcomputer (D) in the refrigerator compartment damper. Going to the driving step 57, the refrigerator damper driving unit (H) is controlled according to the internal temperature of the refrigerator compartment 2 to open and close the damper 6 to a set temperature as shown in FIG. It is possible to cool the refrigerating chamber (2).

As described above, the present invention, when the internal temperature of the freezer compartment reaches the set temperature, the compressor is stopped and the defrosting operation condition is not satisfied, the freezer compartment air blocking plate is operated by the evaporator by driving the duct fan motor in a state in which the passage of the freezer compartment is closed. Saved food by reducing the amount of defrosting time of evaporator by preventing heat exchanged cold air into the refrigerating chamber, preventing deterioration of freezing and refrigerating capacity when the compressor is restarted, and suppressing temperature rise in the refrigerating compartment when the compressor is stopped. It is effective to maintain the freshness of.

Claims (2)

A freezing compartment (1) and a refrigerating compartment (2) separated by the partition (10), an evaporator (3) provided in the partition (10) for heat exchange with air in the freezer compartment (1) and the refrigerating compartment (2), A compressor (8) for compressing the low temperature low pressure refrigerant heat exchanged in the evaporator (3) to high temperature and high pressure, and for cooling the cold air heat exchanged by the evaporator (3) to the freezing chamber (1) and the refrigerating chamber (2), respectively To the duct pan 4a provided behind the evaporator 3, the freezing chamber duct 5 which introduces cold air blown by the duct pan 4a into the freezing chamber 1, and the duct pan 4a. In the refrigerator provided with the damper 6 which introduces the cold air blown by the inside of the said refrigerating compartment 2, the internal temperature of the freezer compartment 1 reaches the set temperature, the compressor 8 is stopped, and the defrosting operation is stopped. Not the cold heat exchanged in the evaporator 3 and blown by the duct pan 4a In order to allow only the inside of the chamber 2 to flow in, the support 7a fixed to both sides of the freezing chamber duct 5 and the support 7a are rotatably parallel to the support 7a to close the passage of the freezing chamber duct 5. A freezer compartment cold air blocking plate (7) consisting of an installed rotating plate (7b) and a connecting lever (7c) moving forward and backward to rotate the rotating plate (7b); And a freezer compartment motor 9 installed in the freezer compartment 5 so as to open and close the passage of the freezer compartment 5 by advancing and connecting the connection lever 7c of the freezer compartment cold blocking plate 7. Refrigerator compartment temperature holding device of the refrigerator. When the freezer temperature of the freezer compartment 1 is higher than the set temperature and the refrigeration thermostat is driven and the defrosting operation conditions are not satisfied, the compressor 8 and the duct fan motor 4 are driven to cool the heat exchanged in the evaporator 3. 1) and a refrigerating and cooling operation step of adjusting the internal temperature of the refrigerator by entering the refrigerating chamber (2) and stopping the compressor (8) and the duct fan motor (4) when the refrigeration thermostat is driven and satisfies the defrosting operation condition. In the refrigerator compartment temperature holding method of the refrigerator performing the defrosting operation to remove the defrost formed on the evaporator (3), the internal temperature of the freezer compartment (1) is lowered below the set temperature, the refrigeration thermostat does not drive the defrosting operation conditions A duct motor driving step 62 for driving the freezing chamber duct motor 9 to block the passage of the freezing chamber cold blocking plate 7 when the freezing chamber cold blocking plate 7 is not satisfied; A compressor driving stop step (63) of stopping driving of the compressor (8) when the passage of the freezing chamber (5) is blocked by the doc motor driving step (62); A duct fan motor driving step (54) for driving the duct fan motor (4) to allow the cold air heat-exchanged in the evaporator (3) to flow into the refrigerating chamber (2) when the compressor (8) is stopped; Fan motor speed control to adjust the rotational speed of the duct fan motor 4 according to the internal temperature of the refrigerating compartment 2 when the cold air flows into the refrigerating compartment 2 by the duct fan motor driving step 54. Step 55; A damper thermostat driving step (56) for driving a damper thermostat to sense the internal temperature of the refrigerating compartment (2); And the damper (40) for introducing and blocking the cool air blown by the duct fan motor (4) into the refrigerating compartment (2) according to the internal temperature of the refrigerating compartment (2) detected in the damper thermo-drive step (56). 6) A method for maintaining a refrigerator compartment temperature of a refrigerator, comprising the step of driving a refrigerator compartment damper (57) to open and close an operation.