KR20050060199A - Refrigerator and control method thereof - Google Patents

Abstract

The present invention includes a main body in which a freezing compartment and a refrigerating compartment are formed, a load driving unit provided in the main body to generate cold air, a first duct for guiding cold air generated in the load driving unit to the freezing chamber, and a freezing chamber in communication with the freezing chamber. A refrigerator comprising a second duct for guiding cold air to the refrigerating compartment. Refrigerator of the present invention, the refrigerator compartment temperature sensing unit for sensing the temperature of the refrigerator compartment; A fan provided in the first duct to blow cold air generated by the load driver; A damper provided in the second duct to open and close a flow path of cold air; And a controller configured to control the damper to drive the fan and open the cold air flow path of the second duct when the temperature of the refrigerating compartment rises above a predetermined damper opening temperature in the state in which the load driving unit is turned off. . Thereby, the refrigerator which can efficiently control the internal temperature of the refrigerating compartment can be provided even when the drive of the load driving unit is turned off.

Description

How to control your refrigerator and freezer {REFRIGERATOR AND CONTROL METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator, and more particularly, to a refrigerator and a refrigerator control method capable of efficiently controlling the internal temperature of a refrigerating chamber even when the load driving unit is turned off.

In general, a refrigerator includes a storage compartment, generates cold air by repeatedly circulating a refrigerant according to driving of a predetermined load driving unit, supplies the generated cold air to the storage compartment, and keeps food stored in the storage compartment fresh for a long time. It is a home appliance that can be stored. This refrigerator will be described with reference to FIG. 1.

The refrigerator includes a main body 1 in which a freezer compartment 2 and a refrigerating compartment 3 are formed, a freezer compartment temperature detector 20, a refrigerator compartment temperature detector 10, and a body 1 to compress a refrigerant. And a condenser (not shown), a capillary tube (not shown), and an evaporator 34 for evaporating refrigerant from the capillary tube (not shown), thereby generating cold air. And a second duct 5 for guiding the cold air of the freezer compartment 2 to the refrigerating compartment 3. In addition, a fan 40 provided in the first duct 4 for blowing the cool air generated from the compressor 32 through the evaporator 34, and a damper provided in the second duct 5 to open and close the flow path of the cold air ( 50).

The refrigerator having the structure as described above turns off the compressor 32 and the fan 40 when the temperature of the freezing chamber 2 and the refrigerating chamber 3 falls below the lower limit temperature of each predetermined target temperature range and the damper 50 is turned off. The cold air supply is stopped to close, and the temperatures of the freezing chamber 2 and the refrigerating chamber 3 gradually increase. At this time, when the temperature of the freezer compartment 2 rises above the upper limit temperature of the target temperature range of the freezer compartment, the compressor 32 and the fan 40 are driven to supply cold air to the freezer compartment 2, and the temperature of the refrigerating compartment 3 is the target of the refrigerating compartment. When the temperature rises above the upper limit of the temperature range, the compressor 32 and the fan 40 are driven, and the damper 50 is opened to supply cold air to the refrigerating chamber 3, thereby allowing the temperature of the freezing chamber 2 and the refrigerating chamber 3 to be increased. Is maintained within each target temperature range.

However, in such a conventional refrigerator, when the compressor 32 is in the off state, as the second duct 5 for supplying the cool air into the refrigerator compartment 3 is blocked, the temperature of the refrigerator compartment 3 is increased in the freezer compartment ( There is a problem that rises relatively fast compared to the temperature of 2). Therefore, as a result, when the temperature of the refrigerating compartment 3 rises above the upper limit temperature of the refrigerating compartment target temperature range, the temperature of the freezing compartment 2 is the upper limit temperature of the target temperature range of the freezer compartment to supply cold air to the refrigerating compartment 3. Even if it is not abnormal, the drive efficiency of the refrigerator is reduced by driving the compressor 32 and the fan 40 and opening the damper 50.

Accordingly, an object of the present invention is to provide a refrigerator and a refrigerator control method capable of efficiently controlling the internal temperature of the refrigerating compartment even when the load driving unit is turned off.

According to the present invention, the freezing chamber and the refrigerating chamber is formed, the main body is provided with a load driving unit for generating cold air, the first duct for guiding the cold air generated in the load driving unit to the freezing chamber, A refrigerator comprising a second duct connected to guide the cold air of the freezer compartment to the refrigerating compartment, the refrigerator comprising: a refrigerating compartment temperature sensing unit for sensing a temperature of the refrigerating compartment; A fan provided in the first duct to blow cold air generated by the load driver; A damper provided in the second duct to open and close a flow path of cold air; And a controller configured to control the damper to drive the fan and open the cold air flow path of the second duct when the temperature of the refrigerating compartment rises above a predetermined damper opening temperature in the state in which the load driving unit is turned off. Achieved by the refrigerator.

       Here, the control unit, when the load driving unit is off, the fan drive is on and the damper open state, as a result of the detection of the refrigerating compartment temperature sensing unit temperature of the refrigerating compartment is less than the predetermined damper closing temperature lower than the damper opening temperature. When descending to, it is preferable to control to turn off the driving of the fan and to close the damper.

On the other hand, according to another field of the present invention, the freezing chamber and the refrigerating chamber is formed in the main body, the load driving unit provided in the main body for generating cold air, and the first duct to guide the cold air generated in the load driving unit to the freezing chamber And a second duct communicating with the freezer compartment to guide the cold air of the freezer compartment to the refrigerating compartment, a fan provided in the first duct to blow cold air generated by the load driver, and a flow path of the cold air provided in the second duct. A refrigerator control method comprising a damper for opening and closing a step, the method comprising: sensing a temperature of the refrigerating compartment; Determining whether the load driver is in an off state; Controlling the damper to drive the fan and open the cold air flow path of the second duct when the refrigerating chamber temperature rises above a predetermined damper opening temperature when the load driving unit is turned off. It is achieved by the refrigerator control method.

Here, when the load driving unit is in the off state and the fan drive is turned on and the damper is opened, when the temperature of the refrigerating chamber falls below a predetermined damper closing temperature lower than the damper opening temperature, the driving of the fan is turned off. Preferably, the method further includes controlling to close the damper.

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

1 is a side cross-sectional view of a refrigerator. As shown in the figure, the refrigerator includes a main body 1 in which the freezing compartment 2 and the refrigerating compartment 3 are divided, a freezing compartment temperature sensing unit 20 provided in the freezing compartment 2 to sense a temperature; The refrigerator compartment temperature sensing unit 10 provided in the refrigerating compartment 3 to sense a temperature, the compressor 32 provided in the lower region of the main body 1 to compress the refrigerant, and the condenser condensing the refrigerant from the compressor 32 ( Not shown), a capillary tube (not shown) for reducing the refrigerant from the condenser (not shown), and an evaporator 34 provided in the rear region of the freezing chamber 3 to evaporate the refrigerant from the capillary tube (not shown) to generate cold air. And a first duct (4) for guiding the cold air generated through the freezing compartment (2), and a fan provided in the first duct (4) to blow the cold air into the freezing compartment (2) and the refrigerating compartment (3). A second duct 5 in communication with the freezing chamber 2 and guiding the cold air of the freezing chamber 2 to the refrigerating chamber 3; Provided in (5) comprises a damper 50 for opening and closing a flow path of the cooling air.

The refrigerator having the structure drives the fan 40 to supply the cool air generated in the evaporator 34 through the drive of the compressor 32 to the freezer compartment 2 through the first duct 4 and to the evaporator 34. ) Is supplied to the refrigerating chamber (3) through the second duct (5) via the freezing chamber (2).

1 shows a structure in which the freezer compartment 2 is provided at the upper portion of the refrigerating compartment 3 as an embodiment of the refrigerator according to the present invention, but the refrigerating compartment 3 is provided at the top of the freezer compartment 2. It is also possible to supply the cold air to the refrigerating chamber 3 through the structure, and FIG. 1 also shows a structure in which one fan 40 is provided in the first duct 4, but the number and positions of the fans 40 are evaporators. It is possible to provide variously within the range of the objective of supplying the cold air from (34) to the refrigerating chamber 3 via the freezing chamber 2.

2 is a control block diagram of a refrigerator according to the present invention. As shown in the figure, the refrigerator according to the present invention includes a refrigerator compartment temperature detector 10 for detecting a temperature of the refrigerator compartment 3, a freezer compartment temperature detector 20 for detecting a temperature of the freezer compartment 2, The load driving unit 30 provided in the main body 1 to generate cold air, the fan 40 for blowing cold air to the freezing chamber 2 and the refrigerating chamber 3, and the cold air generated in the load driving unit 30 to the freezing chamber ( The comparison result between the damper 50 for opening and closing the flow path of the cold air supplied to the refrigerating chamber 3 from 2) and the temperature of the refrigerating chamber 3 and the predetermined damper opening / closing temperature with the load driving unit 30 turned off. The control unit 60 controls the driving of the fan 40 and the opening and closing of the damper 50.

The load driving unit 30 serves to generate cold air for supplying to the freezing chamber 2 and the refrigerating chamber 3, and as shown in FIG. 1, the compressor 32 is provided in the main body 1 to compress the refrigerant. And a condenser (not shown) for condensing the refrigerant from the compressor (32), a capillary tube (not shown) for reducing the refrigerant from the condenser (not shown), and a refrigerant from the capillary tube (not shown) to evaporate the cold air. It includes an evaporator 34 to generate and cool air is generated through the above process by the driving of the compression port (32).

The fan 40 is provided in the first duct 4 and is driven to blow cool air generated in the load driving part 30 to the freezing chamber 2 and the refrigerating chamber 3.

The damper 50 is provided in the second duct 5, and serves to open and close the flow path of the cold air in order to control the temperature of the cold compartment by supplying and blocking cold air from the refrigerating compartment 3.

When the temperature of the freezer compartment 2 and the refrigerating compartment 3 satisfies a predetermined target temperature and the load driving unit 30 is turned off, the temperature of the refrigerating compartment 3 rises above the predetermined damper opening temperature. When the fan 40 is driven and the damper 50 is opened, and the load driver 30 is turned off and the fan 40 is driven on and the damper 50 is open, the temperature of the refrigerating compartment 3 is When the temperature falls below a predetermined damper closing temperature lower than the damper opening temperature, the fan 40 is controlled to be turned off and the damper 50 is closed.

Here, the damper opening and closing temperature is a predetermined temperature within a predetermined refrigerating chamber target temperature range for turning on / off the load driving unit 30 according to the temperature of the refrigerating chamber 3 while the load driving unit 30 is turned off. The temperature is set to a preferable temperature in consideration of efficient temperature control of the refrigerating chamber 3 using the cold air of the freezing chamber 2 and rising of the freezing chamber 2 temperature caused by supplying the cold air of the freezing chamber 2 to the refrigerating chamber 3.

Here, the control flow of the refrigerator according to the present invention will be described with reference to FIG. 3.

First, the refrigerator compartment temperature detector 10 detects the temperature of the refrigerator compartment 3 (S100). The control unit 60 determines whether the temperature of the freezing chamber 2 and the refrigerating chamber 3 satisfies a predetermined target temperature to turn off the load driving unit 30 (S100). When the load driving unit 30 is in the off state as a result of the determination, the controller 60 determines whether the temperature of the refrigerating chamber 3 rises above the predetermined damper opening temperature (S120) and when the temperature rises above the predetermined damper opening temperature. , The damper 50 is opened and the fan 40 is driven (S130). Accordingly, the cool air in the freezer compartment 2 is supplied to the refrigerating compartment 3 along the second duct 5 by the blowing of the fan 40, so that the temperature of the refrigerating compartment 3 is lowered. The controller 60 determines whether the temperature of the refrigerating chamber 3 falls below a predetermined damper closing temperature (S140), and when the temperature falls below the damper closing temperature, the controller 60 closes the damper 50 and turns off the driving of the fan 40. Let (S150). After that, the process returns to the step S110 and the above steps are repeated. When the load driving part 30 is being driven in the step S110, the controller 60 controls the freezing chamber 2 and the refrigerating chamber 3. The fan 40 and the damper 50 are controlled according to the temperature to drive the refrigerator 40 in the normal control mode of the refrigerator for supplying the cold air generated by the load driver 30 to the freezing compartment 2 and the refrigerating compartment 3 (S160).

Referring to Figure 4 showing an embodiment of the operation of the compressor 32, the damper 50 and the fan 40 according to the refrigerator control flow of the present invention as described above are as follows.

First, the refrigerator of the present invention drives the compressor 32 and the fan 40 and opens the damper 50 to supply cold air to the freezing compartment 2 and the refrigerating compartment 3, and then the freezing compartment 2 and the refrigerating compartment 3. Temperature drops to the lower limit of each target temperature range. In time, the compressor 32 and the fan 40 are turned off and the damper 50 is closed. Due to the interruption of the cold air supply, the temperatures of the chambers 2 and 3 gradually rise, and the temperature of the refrigerating chamber 3 rises above the damper opening temperature. In time the fan 40 is driven and the damper 50 is opened. The cold air of the freezer compartment 2 is supplied to the refrigerating compartment 3 so that the temperature of the refrigerating compartment 3 is lowered, and the temperature of the refrigerating compartment 3 is lowered as described above and lowered below the damper closing temperature. In time, the drive of the fan 40 is turned off and the damper 50 is closed. The supply of cold air to the refrigerating compartment 3 is cut off and the temperature of the refrigerating compartment 3 rises again. In time Do the same behavior as in time, In time The temperature of the refrigerating compartment 3 is controlled using the cold air of the freezing compartment 2 in the state in which the compressor 32 is turned off in the same manner as in the time. During this process, the freezer compartment 2 rises to the upper limit of the freezer target temperature range. In time, the compressor 32 and the fan 40 are driven to supply cold air to the freezing chamber 2. At this time, since the temperature of the refrigerating chamber 3 still satisfies the target temperature range, the damper 50 is not closed to supply cold air, and the temperature rises to the upper limit temperature. The damper 50 is opened in time to supply cold air to the refrigerating chamber 3.

As described above, the refrigerator according to the present invention controls the fan 40 and the damper 50 when the driving of the load driving unit 30 is turned off so that no cold air is supplied to the freezing compartment 2 and the refrigerating compartment 3. The cold air in the freezer compartment 2 is supplied to the refrigerating compartment 3 to control the temperature of the refrigerating compartment 3.

As described above, according to the present invention, it is possible to provide a refrigerator and a refrigerator control method capable of efficiently controlling the internal temperature of the refrigerating compartment even when the load driving unit is turned off.

1 is a side cross-sectional view of a refrigerator,

2 is a control block diagram of a refrigerator according to the present invention;

3 is a control flowchart of a refrigerator according to the present invention;

4 is an exemplary view showing an operation section of the compressor, the damper and the fan according to the refrigerator control of the present invention.

* Explanation of symbols for the main parts of the drawings

10: refrigerating compartment temperature detection unit 20: freezer compartment temperature detection unit

30: load driving unit 40: fan

50: damper 60: control unit

Claims (4)

 A main body in which a freezing compartment and a refrigerating compartment are formed, a load driving unit provided in the main body to generate cold air, a first duct for guiding cold air generated in the load driving unit to the freezing compartment, and a cold air of the freezing compartment in communication with a freezing compartment. In the refrigerator comprising a second duct to guide to, A refrigerator compartment temperature detector detecting a temperature of the refrigerator compartment; A fan provided in the first duct to blow cold air generated by the load driver; A damper provided in the second duct to open and close a flow path of cold air; And a controller configured to control the damper to drive the fan and open the cold air flow path of the second duct when the temperature of the refrigerating compartment rises above a predetermined damper opening temperature in the state in which the load driving unit is turned off. Refrigerator. The method of claim 1, The control unit, When the load driving unit is in the off state and the fan driving is turned on and the damper is open, when the temperature of the refrigerating compartment falls below a predetermined damper closing temperature lower than the damper opening temperature as a result of the detection of the refrigerating compartment temperature sensing unit, the fan And a control unit which controls to turn off the driving and close the damper. A main body in which a freezing compartment and a refrigerating compartment are formed, a load driving unit provided in the main body to generate cold air, a first duct for guiding cold air generated in the load driving unit to the freezing compartment, and a cold air of the freezing compartment in communication with a freezing compartment. In the refrigerator control method comprising a second duct to guide to, a fan provided in the first duct for blowing the cold air generated in the load driving unit, and a damper provided in the second duct to open and close the flow path of the cold air, Sensing a temperature of the refrigerating compartment; Determining whether the load driver is in an off state; Controlling the damper to drive the fan and open the cold air flow path of the second duct when the refrigerating chamber temperature rises above a predetermined damper opening temperature in the state in which the load driving unit is turned off. Refrigerator control method. The method of claim 3, When the load driver is in the off state and the fan drive is on and the damper is open, when the temperature of the refrigerating chamber falls below a predetermined damper closing temperature lower than the damper opening temperature, the driving of the fan is turned off and the damper Refrigerator control method further comprising the step of controlling to block.