KR100577125B1 - Apparatus and control method of defrosting a refrigerating compartment for a refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator compartment defrost control apparatus and method for circulating air in a refrigerator compartment without using a separate defrost heater so as to defrost the cooler and to defrost the drain draining the defrost water well. .

The control unit 54 of the present invention is a refrigerator compartment circulation fan in a state in which the compressor 22 is turned off when the internal temperature of the refrigerator compartment 12 is 0 ° C. or more during the cooling operation of the refrigerator 16 of the refrigerator compartment 12. 18) is turned on to defrost the cooler 16 with high air.

In addition, the present invention is another feature to efficiently defrost the drain 21 for draining the defrost water generated during the defrosting operation of the cooler 16 of the refrigerating chamber 12, for this purpose, inside the drain 21 A drain heater 21a provided so as to be enclosed and a drain heater driver 59 for driving the drain heater 21a by the control unit 54 are further provided.

Description

Apparatus and control method of defrosting a refrigerating compartment for a refrigerator}

1 is a cross-sectional view showing the internal structure of a conventional refrigerator,

2 is a view showing a refrigeration cycle applied to a conventional refrigerator,

3 is a block diagram of a refrigerator compartment defrost control device of a refrigerator according to the present invention;

4 is a cross-sectional view showing the internal structure of the refrigerator according to the present invention;

5 is a view showing a refrigeration cycle applied to the refrigerator of the present invention,

6 is a flowchart illustrating a method of controlling a defrost of a refrigerator compartment of a refrigerator according to the present invention;

Explanation of symbols on the main parts of the drawings

51: function selection unit 52: high temperature detection unit

53: door detection unit 54: control unit

55: freezer compartment circulation fan drive unit 56: cold room circulation fan drive unit

57: compressor driving unit 58: freezer compartment defrost heater driving unit

59: drain heater driving unit

The present invention relates to a refrigerator defrost control device and a method of the refrigerator, and in particular, it is possible to defrost the coolant and the drain draining the defrost water well by circulating the air in the refrigerator compartment without using a separate defrost heater. It relates to a refrigerator compartment defrost control apparatus and a method of the refrigerator.

In general, in a refrigerator having a plurality of coolers and circulation fans, an independent cooling method is known in which cold air is individually supplied to a freezing compartment and a refrigerating compartment to perform a cooling operation.

As shown in FIG. 1, the conventional refrigerator according to the independent cooling method includes the refrigerator main body 10 and the freezer compartment 11 and the refrigerating compartment divided up and down so that cold air mixing does not occur inside the main body 10. 12) is provided. The freezing compartment 11 and the refrigerating compartment 12 are partitioned by an intermediate partition and are opened and closed by the freezing compartment door 13 and the refrigerating compartment door 14, respectively.

In the rear wall of the freezer compartment 11, a freezer compartment cooler 15 and a circulation fan 17 are disposed up and down, and a freezer compartment defrost heater 15a for defrosting the cooler 15 is installed adjacent to the freezer compartment 12. On the rear wall of the), a refrigerator compartment cooler 16 and a circulation fan 18 are arranged up and down, and a refrigerator compartment defrost heater 16a for defrosting the refrigerator 16 is adjacently installed. In addition, the guide duct 19 is provided so as to surround the refrigerator 16 for the refrigerating compartment, and an inlet 19a for sucking the air in the refrigerator compartment 12 is formed on the front surface of the guide duct 19. Guide ducts 21 which are guided to discharge cold air sucked through the 19a and heat-exchanged by the cooler 16 into the refrigerating chamber 12 are formed up and down. In addition, a drain 21 is formed in the lower side of the cooler 16 to drain the defrost water generated during the defrosting of the cooler 16 in the guide duct 21.

In addition, a compressor 22 is installed below the refrigerator main body 10, and the compressor 22 is one component of the refrigerating cycle together with the freezer compartment cooler 15 and the refrigerating compartment cooler 16 as shown in FIG. 2. The compressor 22 compresses the refrigerant at high temperature and high pressure and supplies the refrigerant to the condenser 23, and the condenser 23 condenses the refrigerant compressed at high temperature and high pressure to supply the liquid refrigerant to the capillary tube 24. do. The capillary tube 24 expands the condensed liquid refrigerant to be supplied to the refrigerator compartment cooler 16, and the refrigerant heat-exchanged in the refrigerator compartment cooler 16 is converted into a low temperature low pressure state through the freezer compartment cooler 15, and then the compressor 22. Will return.

The defrosting operation of the freezer compartment 11 and the refrigerating compartment 12 is performed by driving the freezer compartment defrost heater 15a and the refrigerating compartment defrost heater 16a according to the time in which the operation time of the compressor 22 is accumulated. The defrosting cycle of the refrigerating compartment 12 is set to be shorter than the defrosting cycle of the freezing compartment 11. For example, the defrosting cycle of the refrigerating compartment 12 is about 6-16 hours, and the defrosting cycle of the freezing compartment 11 is about 12-32 hours. Will be set.

However, in the conventional refrigerator, since the refrigerator compartment defrost heater 16a must be provided in order to defrost the cooler 15 of the refrigerator compartment 12, the manufacturing cost increases.

In addition, since the defrosting cycle of the refrigerating chamber 12 is shorter than that of the freezing chamber 11, the defrost heater 16a for the refrigerating chamber is frequently driven, and the frost formed on the drain 21 formed on the lower side of the cooler 16 may be defrosted. Since the defrost heater 16a for the refrigerating chamber is driven for a long time so that energy is wasted, the refrigerating chamber 12 is raised in the refrigerating chamber 12 by causing the internal temperature of the refrigerating chamber 12 to rise due to residual heat caused by the defrost heater 16a. There was a problem that the operating efficiency of the cooler 16 for the lowering.

The present invention is to solve the above problems, an object of the present invention is to defrost by circulating the air in the refrigerator compartment without using a separate defrost heater for defrosting the cooler and at the same time to efficiently drain the drain of the defrost water An object of the present invention is to provide a defrosting control apparatus for a refrigerator compartment of a refrigerator and a method thereof.

The refrigerator compartment defrost control apparatus of the refrigerator according to the present invention as described above comprises a refrigerator compartment partitioned with a freezer compartment by a middle partition, a refrigerator compartment cooler which forms one component of a refrigeration cycle together with a compressor, and a refrigerator of the refrigerator compartment by suctioning the high internal air of the refrigerator compartment. The refrigerator compartment circulation fan installed together with the refrigerator compartment cooler in the guide duct of the refrigerator compartment to heat the air after the heat exchange in the refrigerator, the refrigerator compartment circulation fan driving unit for driving the refrigerator compartment circulation fan, and defrost water generated during the defrosting operation of the refrigerator compartment cooler. A refrigerator having a drain formed under the refrigerating compartment cooler for drainage, the refrigerator comprising: a drain heater installed to surround an inside of the drain; A drain heater driver configured to turn on the drain heater to defrost the drain; And controlling the refrigerating compartment circulating fan driving unit based on the operation time of the compressor to defrost the refrigerating compartment cooler with the high internal air of the refrigerating compartment, and defrosting the drain based on the number of defrosting operations of the refrigerating compartment cooler. It is achieved by a control unit for controlling the heater driving unit.

Refrigerating room defrosting control method of the refrigerator according to the present invention as described above is provided with a freezer compartment and a refrigerating compartment to be independently partitioned and cooled, and each chamber has a cooler and a circulation fan, the compressor is driven according to the sensed internal temperature to cool the refrigerator compartment A refrigerator compartment defrost control method of performing a defrost operation on a refrigerator compartment cooler during an operation, comprising: determining whether the refrigerator compartment cooler is defrosting based on an operation time of the compressor; Driving a refrigerating compartment circulation fan to defrost the refrigerating compartment cooler with high internal air of the refrigerating compartment during the defrosting operation of the refrigerating compartment cooler; And driving the drain heater provided inside the drain to defrost the drain formed under the refrigerating compartment cooler according to the number of defrosting operations of the refrigerating compartment cooler.

The determining of the defrosting operation of the refrigerating compartment according to the present invention may include integrating the operation time of the compressor, and comparing the accumulated time of the operation time of the compressor with a preset defrosting time of the refrigerating compartment. .

In addition, the driving of the refrigerating compartment circulation fan according to the present invention includes the steps of detecting the internal temperature of the present refrigerator compartment, determining whether the detected internal refrigerator temperature is higher than a preset reference temperature, and the current inside of the refrigerator compartment. If the temperature is higher than the reference temperature is characterized in that it comprises the step of turning on the refrigerating compartment circulation fan, and determining whether the drive time of the refrigerating compartment circulation fan has reached a predetermined defrost completion time.

The driving of the drain heater may include: counting the number of defrosting operations of the refrigerating compartment cooler; comparing the counted defrosting operation times of the refrigerating compartment cooler with a preset reference number; Turning on the drain heater after reaching the reference number of times, determining whether the driving time of the drain heater reaches a preset reference time, and turning off the drain heater when the driving time of the drain heater reaches the reference time. It is characteristic that it is made.

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

3 is a block diagram of a refrigerator defrost control device of a refrigerator according to the present invention, the internal configuration of the present invention will be described later with reference to Figure 4 will be described with reference to the same reference numerals for the components of the same function as the conventional.

As shown in FIG. 3, the present invention senses the internal temperature of the function selecting unit 51 and the freezing chamber 11 and the refrigerating chamber 12 for setting an operation function of the refrigerator, and outputs a high temperature detection signal. It is provided with a temperature detection unit 52, and a door detection unit 53 for detecting the opening and closing state of the freezing chamber door 13 and the refrigerating chamber door (14).

In addition, the present invention is provided with a control unit 54 for controlling the operation to perform the cooling operation and defrosting operation for the freezer compartment 11 and the refrigerating chamber 12 according to the internal temperature detected by the internal temperature detecting unit 52. And a freezing compartment circulation fan driving unit 55, a refrigerating chamber circulation fan driving unit 56, a compressor driving unit 57, and a freezer compartment heater unit eastern 58 controlled by the control unit 54.

In particular, the control unit 54 of the present invention circulates the refrigerating compartment in a state in which the compressor 22 is turned off when the internal temperature of the refrigerating compartment 12 is 0 ° C. or more, during the cooling operation of the cooler 16 of the refrigerating compartment 12. One feature is that the fan 18 is turned on to defrost the cooler 16 with high air.

In addition, the present invention is another feature to efficiently defrost the drain 21 for draining the defrost water generated during the defrosting operation of the cooler 16 of the refrigerating chamber 12, for this purpose, inside the drain 21 A drain heater 21a provided so as to be enclosed and a drain heater driver 59 for driving the drain heater 21a by the control unit 54 are further provided.

The internal structure of the refrigerator according to the present invention is provided with a freezer compartment 11 and a refrigerating compartment 12 partitioned up and down by an intermediate partition in the refrigerator main body 10, as shown in Figure 4, the freezer door 13 and the refrigerating compartment Each door 14 is opened and closed.

In addition, a freezer compartment cooler 15 and a circulation fan 17 are disposed up and down on the rear wall of the freezer compartment 11, and a refrigerator compartment cooler 16 and a circulation fan 18 are arranged up and down on the rear wall of the refrigerator compartment 12. . A guide duct 19 is provided to surround the refrigerator compartment cooler 16, and an inlet 19a for sucking air in the refrigerator compartment 12 is formed on the front surface of the guide duct 19. Guide ducts 19 which are guided to discharge cold air sucked through 19a and heat-exchanged by the cooler 16 into the refrigerating chamber 12 are formed up and down. In addition, a drain 21 is formed in the lower side of the cooler 16 to collect and drain the defrost water generated during the defrost of the cooler 16 in the guide duct 19.

On the other hand, when the internal temperature of the refrigerating chamber 12 rises and becomes higher than the high preset temperature, the control unit 54 performs the normal cooling operation as the compressor 22 and the refrigerating chamber circulation fan 18 are driven. That is, as shown in FIG. 5, the refrigerant compressed at high temperature and high pressure in the compressor 22 is supplied to the condenser 23, and the condenser 23 condenses the refrigerant compressed at high temperature and high pressure to capillary the liquid refrigerant. 24). In addition, the capillary tube 24 expands the condensed liquid refrigerant to be supplied to the refrigerator compartment cooler 16, and the refrigerant heat exchanged in the refrigerator compartment cooler 16 is converted into a state of low temperature and low pressure via the freezer compartment cooler 15, and is again compressed. By refrigeration cycle to return to (22) by lowering the temperature in the refrigerator compartment 12 to perform the cooling operation to keep the food stored in the fresh store.

In this manner, when the operation time of the compressor 22 is accumulated during the cooling operation of the refrigerating chamber 12, the defrosting operation time of the refrigerating chamber 12 reaches, for example, 6-16 hours. The control unit 54 turns off the compressor 22 and then performs a defrosting operation for the cooler 16 of the refrigerating chamber 12 when the internal temperature of the refrigerating chamber 12 is 0 ° C. or higher as a reference temperature, for example. 56, the refrigerating chamber circulation fan 18 is driven for a predetermined defrost completion time, for example, about 10 minutes. Accordingly, the air in the refrigerator compartment 12 is sucked through the suction port 19a formed on the front surface of the guide duct 19 and then defrosted while passing through the cooler 16.

When the number of defrosting operations for the cooler 16 of the refrigerating chamber 12 reaches a preset reference number of times, the controller 54 controls the drain heater driving unit 59 to open the inside of the drain 21. The drain 21 is defrosted by driving the drain heater 21a provided to surround the reference time. Here, the reference number for determining whether the drain heater 21 is driven is preferably set to 3-4 times, and can be appropriately set in consideration of the defrosting cycle of the refrigerating chamber 12, and once for the drain heater 21a. Defrosting operation time is preferably set within 1-2 minutes.

Hereinafter, a method for controlling defrost of a refrigerator compartment of a refrigerator according to the present invention will be described with reference to the operation flowchart of FIG. 6.

First, the high temperature detecting unit 52 detects the high temperature inside the freezing chamber 11 and the refrigerating chamber 12 and outputs the high temperature detecting signal according to the control unit 54. The control unit 54 is to recognize the internal temperature of each room (S101). Subsequently, the controller 54 compares the detected internal temperature of each chamber with a preset internal preset temperature to determine whether to perform a cooling operation, and according to the determination result, the compressor driver 57 and the freezer compartment circulation fan driver 55 ) And the refrigerating chamber circulating fan driving unit 56 to perform the cooling operation for the freezer compartment 11 and the refrigerating compartment 12 (S102).

In this way, when performing the cooling operation for each chamber in accordance with the high temperature inside the control unit 54 accumulates the operating time of the compressor 22 (S103), the control unit 54 is the integrated compressor 22 It is determined whether the operation time of the refrigerator compartment defrosting operation to perform the defrosting operation of the refrigerating chamber 12 (S104).

As a result of the determination in step S104, when the integrated operation time of the compressor 22 reaches 6-16 hours as an example of a preset refrigerating chamber defrost time, the high temperature detecting unit 52 currently has a high internal temperature T of the refrigerating chamber 12. _R ) and the control unit 54 recognizes the inside temperature of the refrigerating chamber through the inside temperature detecting unit 52 (S105). Subsequently, the controller 54 determines whether the internal temperature T _R of the current refrigerating chamber 12 is higher than a preset reference temperature, for example, 0 ° C. (S106).

As a result of the determination of step S106, when the internal temperature T _R of the current refrigerating compartment 12 is not high, the predetermined temperature is returned to step S105 to wait, whereas, as a result of the determination of step S106, the refrigerating compartment 12 of the current refrigerating compartment 12 If the high temperature T _R is higher than the preset reference temperature Tref, the controller 54 controls the refrigerating chamber circulation fan driving unit 56 to defrost the cooler 16 with the high internal air of the refrigerating chamber 12. The circulation fan 18 is turned on (S107). Subsequently, the controller 54 determines the completion of the refrigerating compartment defrost by comparing the defrosting completion time, for example, about 10 minutes, with a time counting the driving time of the refrigerating compartment circulation fan 18 (S108).

If the driving time of the refrigerating compartment circulation fan 18 has not reached the defrosting completion time as a result of the determination of step S108, the flow returns to step S107 to continue defrosting operation, while the determination result of step S108 indicates that the refrigerating compartment circulation fan 18 When the driving time reaches the defrosting completion time, the control unit 54 counts the number of defrosting operations of the refrigerating chamber (S109). Subsequently, the controller 54 determines whether the counted number of times of the defrosting operation of the refrigerating compartment is a preset reference number, for example, 3-4 times (S110).

If the determination result of the step S110 does not reach the reference number of times the refrigerating compartment defrosting operation, the defrost operation for the drain 21 is suspended and returned to the start stage, while the number of refrigerating compartment defrosting operations is determined based on the determination result of the step S110. When the number of times is reached, the controller 54 controls the drain heater driver 59 to turn on the drain heater 21a installed to surround the drain 21 (S111). Subsequently, the controller 54 determines whether a driving time of the drain heater 21a is a preset reference time, for example, 1-2 minutes (S112).

If the driving time of the drain heater 21a does not reach the reference time as a result of the determination in step S112, the flow returns to step S111 to continue to defrost the drain 21, whereas, as a result of the determination of step S112, the drain heater 21a When the driving time reaches the reference time, the controller 54 turns off the drain heater 21a to finish the defrosting operation of the drain 21 and returns (S113).

On the other hand, when the determined operation time of the compressor 22 does not reach the preset refrigerating chamber defrost time as a result of the determination in step S104, the control unit 54 performs the defrosting operation of the freezer compartment 11 when the operation time of the compressor 22 is reached. It is determined whether the freezer compartment defrosting operation is performed (S114).

If the operation time of the integrated compressor 22 does not reach 12-32 hours as a predetermined freezer defrost time, as a result of the determination of step S114, the process returns to step S102 to perform a cooling operation for each chamber, whereas step S114 When the integrated operation time of the compressor 22 reaches a predetermined freezer defrost time, the controller 54 controls the freezer compartment defrost heater driving unit 58 to drive the freezer defrost heater 15a for a set time. After performing the defrosting operation for the freezer compartment 11 is returned to the start step (S115).

In the present invention as described above, the defrosting operation of the refrigerating compartment cooler is performed by circulating the refrigerating compartment high air by driving the refrigerating compartment circulation fan in an independent cooling type refrigerator having a plurality of coolers and a circulation fan, thereby suppressing an increase in the refrigerating compartment internal temperature. And it does not have a separate defrost heater can reduce the manufacturing cost. In addition, the present invention has an effect of efficiently defrosting the drain without wasting power consumption because the drain heater is defrosted by driving the drain heater only when the defrosting operation for the cooler of the refrigerating chamber is performed for a reference number of times.

Claims (6)

The refrigerating compartment partitioned with the freezer compartment by the middle partition, the refrigerating compartment cooler which forms a component of the refrigerating cycle together with the compressor, and the duct duct of the refrigerating compartment to inhale the internal air of the refrigerating compartment, exchange heat in the refrigerating compartment cooler, and then blow the air into the refrigerating compartment. A refrigerating compartment circulation fan installed together with the refrigerating compartment cooler, a refrigerating compartment circulation fan driving unit for driving the refrigerating compartment circulation fan, and a drain formed at a lower portion of the refrigerating compartment cooler to drain defrost water generated during the defrosting operation of the refrigerating compartment cooler. In the refrigerator, A drain heater installed to surround the inside of the drain; A drain heater driver configured to turn on the drain heater to defrost the drain; And The refrigerating chamber circulating fan driving unit is controlled based on the operating time of the compressor to defrost the refrigerating chamber cooler by the high internal air of the refrigerating chamber, and the drain heater driving unit to defrost the drain based on the number of defrosting operations of the refrigerating chamber cooler. Refrigerator compartment defrosting control device of a refrigerator, characterized in that it comprises a control unit for controlling. The refrigerator control method of claim 1, wherein the controller drives the refrigerating chamber circulation fan when the operation time of the compressor reaches 6-16 hours which is a predetermined defrost operation. A freezer compartment and a refrigerating compartment which are mutually divided and independently cooled, and each chamber includes a cooler and a circulation fan, and defrosting the refrigerating compartment cooler while performing a cooling operation of the refrigerating compartment by driving a compressor according to the sensed internal temperature. In the refrigerator compartment defrost control method of the refrigerator, Determining a defrosting operation of the refrigerating compartment cooler based on the operation time of the compressor; Driving a refrigerating compartment circulation fan to defrost the refrigerating compartment cooler with high internal air of the refrigerating compartment during the defrosting operation of the refrigerating compartment cooler; And And driving a drain heater installed inside the drain according to the number of defrosting operations of the refrigerating compartment cooler to defrost the drain formed under the refrigerating compartment cooler. The method of claim 3, wherein the determining of the defrosting operation of the refrigerating compartment is performed. And integrating the operation time of the compressor, and comparing the time of integrating the operation time of the compressor with a defrost time of a refrigerating compartment cooler. The method of claim 3, wherein the driving of the refrigerating compartment circulation fan Detecting the inside temperature of the current refrigerator compartment, determining whether the detected inside temperature of the refrigerator compartment is higher than a preset reference temperature, turning on the refrigerating compartment circulation fan if the inside temperature of the refrigerator compartment is higher than the reference temperature; And determining whether the driving time of the refrigerating chamber circulation fan has reached a preset defrosting completion time. The method of claim 3, wherein the driving of the drain heater Counting the number of defrosting operations of the refrigerating compartment cooler, comparing the counted defrosting operations of the refrigerating compartment cooler with a preset reference number, turning on the drain heater when the number of defrosting operations reaches the reference number, and drain And determining whether or not the driving time of the heater reaches a preset reference time, and turning off the drain heater when the driving time of the drain heater reaches the reference time.

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