KR0172090B1 - Defrosting driving method of a refrigerator and its apparatus - Google Patents

Abstract

Disclosed is a defrosting operation method and apparatus for use in a defrosting operation of a refrigerator having a refrigerating compartment evaporator and a freezer compartment evaporator. The disclosed method integrates the operation time of the compressor through the compressor operation detection unit, the evaporator defrost state detection unit, and the compressor operation detection unit, and forcibly stops the compressor operation when a predetermined integration time is reached. The defrost mode is selected and the heater is operated according to the selected mode, but the heater is operated by a microcomputer control unit having a pure defrost function, which detects the evaporator defrost state and stops when the defrost is completed. In other words, the defrosting operation is performed only for the time required. Therefore, there is no time error at the time of defrosting and it is effective to keep the refrigerator in an optimal state while reducing power consumption by shortening the defrost time in each mode.

Description

Defrosting operation method of refrigerator and its apparatus

The present invention relates to a defrosting operation method of the refrigerator for removing frost frozen in the evaporator of the refrigerator and a device thereof, and more particularly to a defrosting operation method of a refrigerator used for defrosting a refrigerator having two evaporators dedicated to each of the refrigerating compartment and the freezing compartment. And to the apparatus.

As is well known, in the evaporator of a compression refrigerator, cooling is performed by the heat of evaporation which the liquid refrigerant takes from the surroundings when it evaporates. At this time, the frost is pinched by the freezing of moisture around the evaporator. In such a castle, it is necessary to remove the frost because it is a main factor that greatly reduces the evaporator efficiency. Therefore, the refrigerator is provided with a defrost heater which is electrically heated to melt the frost attached to the evaporator, and means for appropriately controlling the defrost heater.

1 shows an electric circuit diagram of a refrigerator having a defrost function using a conventional thermostat and a mechanical timer. The fixed contact of the timer 1 is connected to the power supply via the thermostat 2, and the compressor 4, the fan 5, and the damper 6 are connected to one movable contact of the timer 1. The heater 3 for defrost is connected to the other movable contact of the timer 1. Power is applied while the thermostat 2 is in a conductive state. When power is applied, the timer 1 is operated. Initially, the fixed contact of the timer 1 is connected to one side of the movable contact so that the compressor 4, the fan 5, and the damper 6 are operated. After that, when the defrost time set in the timer 1 is reached, the fixed contact is switched from one movable contact to the other movable contact, the compressor 4, etc. are stopped, and the heater 3 is operated to perform defrost. Repeated periodically by the timer (1). Of course, the timer 1 has a down time while the power is cut off by the thermostat 2, whether or not during defrost operation.

1 illustrates an example in which only one evaporator and one fan are installed. However, some refrigerators have two evaporators and two fans dedicated to the freezer compartment and the refrigerating compartment, respectively. Defrosting of such a refrigerator is generally performed in the following two methods.

One of them is a method mainly used, in which two timers are used in the refrigerating compartment and the freezing compartment, which are connected in parallel, and the defrosting time is decomposed at the ratio of one evaporator for the freezer compartment to two defrosters for each compressor time. The second method is to defrost two evaporators at the same time in a defrost cycle of a relatively short refrigerator evaporator with one timer. However, in the former case, the error between the timers for accumulating the compressor operating time continues to accumulate, and when the two evaporators are defrosted, the defrosting time can be doubled. In this case, the increase in the internal temperature increases. have. In the latter case, since the two evaporators are always defrosted together, the power consumption during defrosting is large, which is undesirable. In addition, both have a problem that the defrosting time cannot be optimized by defrosting for a predetermined time set by each timer regardless of the actual defrosting operation conditions.

It is an object of the present invention to provide a defrosting operation method of a refrigerator which enables efficient defrosting operation with minimal power consumption in a refrigerator having a refrigerator compartment evaporator and a freezer compartment evaporator.

In addition, another object of the present invention is to provide an electronic defrosting operation device having a pure defrosting function capable of performing each defrosting operation on two evaporators without error and shortening each defrosting time.

1 is an electric circuit diagram of a refrigerator shown to explain a conventional defrosting operation method.

Figure 2 is a block diagram showing a defrosting operation device for performing a defrosting operation method of the refrigerator according to the present invention.

3A and 3B are control flowcharts of the defrosting apparatus shown in FIG. 2;

* Explanation of symbols for main parts of the drawings

11, 12: defrost heater 13: compressor

14: compressor operation detection unit 15, 16: evaporator

17: defrost state detection unit 18: microcomputer control unit

The present invention to achieve the first object described above,

Detecting whether the compressor is in an operating state and integrating the operating time in the operating state;

Forcibly stopping the compressor operation when the accumulated compressor operation time becomes a predetermined reference time;

Selectively operating the refrigerator compartment defrost heater and the refrigerator compartment defrost heater by selecting the refrigerator compartment defrost mode and the refrigerator compartment and freezer defrost mode while the compressor operation is forcibly stopped;

Detecting the defrost state of each evaporator after the refrigerating compartment and freezer defrost heaters are operated, and selectively stopping the operation of the refrigerating compartment and freezer defrost heaters when each defrost is completed; and

And releasing the compressor shutdown state after the heater shutdown.

In addition, the present invention to achieve the second object described above,

A heater driving unit for driving the refrigerator compartment and the freezer compartment defrost heater, respectively;

Compressor operation detector for detecting the operation state of the compressor,

Defrost state detection unit for detecting each defrost state of the refrigerator compartment and freezer compartment evaporator, and

The compressor operation time is accumulated according to the signal of the compressor operation detection unit, and when the predetermined integration time is reached, the compressor is forcibly stopped, and then the refrigerator compartment and the freezer compartment heater are selectively operated through the heater driving unit. It characterized in that it comprises a microcomputer control unit for controlling by a predetermined program for releasing the state of the compressor operation stop after stopping the heater operation in accordance with the signal of the detection unit.

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

First, as shown in FIG. 2, the defrosting apparatus according to the present invention senses whether the heater driver 12 for driving the defrost heater 10 for the refrigerating compartment and the defrost heater 11 for the freezer compartment and the operation state of the compressor 13. Compressor operation detection unit 14, defrost state detection unit 17 for detecting each defrost state of the refrigerator compartment evaporator 15 and the freezer compartment evaporator 16, and the compressor operation detection unit 14 and defrost state The microcomputer control unit 18 controls the refrigerator compartment heater 10 and the freezer compartment heater 12 through the heater driver 12 based on the signal of the detector 17.

The defrosting operation method of the present invention performed by the microcomputer control unit of the defrosting apparatus according to the present invention will be described in detail with reference to FIGS. 3A and 3B.

In FIG. 2, the microcomputer control unit 18 determines whether the compressor 13 is in an operating state through the compressor operation detecting unit 14 (step S1), and displays the operation time during the operation of the compressor 13. The integration is continued (step S2). It is determined whether the accumulated operation time of the compressor is a predetermined time, preferably 6 hours (step S3), and when the time reaches 6 hours, the operation of the compressor 13 is forcibly stopped (step S4).

Next, the microcomputer controller 18 reads the refrigerating compartment defrost count from the memory to determine whether the count is 0 (step S5), and selects the refrigerating compartment defrost mode I when the count is 0 and when it is 1 instead of 0. Select the refrigerator or freezer defrost mode (II).

When the refrigerator compartment defrost mode I is selected, the microcomputer control unit 18 operates only the refrigerator compartment heater 10 through the heater driver 14 (step S6), and adds 1 to the previous defrost count (step S7). Then, the microcomputer controller 18 determines whether the defrost of the refrigerating compartment evaporator 15 is completed on the basis of the signal of the defrost state detection unit 17 described above (step S8) and determines that the defrost is completed, the refrigerating compartment. The operation of the heater 10 is stopped and a predetermined dwell time is counted therefrom (step S9). When the predetermined idle time is completed (step S10), the idle time counted so far is cleared and the operation stop state of the compressor is released (step S19).

On the other hand, when the refrigerating compartment and freezer defrost mode II is selected, the microcomputer control unit 18 simultaneously operates the refrigerating compartment heater 10 and the freezer compartment heater 11 (steps S11 and S12), and the previous defrost count. Is cleared to zero (step S13). Then, it is determined from the signal of the defrost state detection unit 17 whether the defrost of the freezer compartment and the refrigerating compartment evaporator is completed (steps S14, S16) and stops the heater operation of the refrigerating compartment and the freezer compartment according to the determination (step S15, S17), it is determined whether all of the defrost heaters of the freezer compartment and the refrigerating compartment are completed and the defrost heaters are turned off (step S18), and the predetermined idle time is counted when the defrost heaters of the refrigerating compartment and the freezer compartment are turned off (step S20), When the idle time count is finished, the counted idle time is cleared and the compressor stops operating (step S21).

For reference, although not shown, the compressor 13 is interlocked with a fan normally controlled by a sensor that detects a high internal temperature of a refrigerating compartment or a freezing compartment. The microcomputer control unit 18 of the present invention merely forces the operation of the compressor. Only by stopping and releasing the role of having a pure defrost function.

The defrosting operation apparatus according to the present invention having such a pure defrosting function can perform defrosting operation in place of a conventional mechanical timer. According to the present invention, since the electronic timer function of the microcomputer is used, the error in the integration time for the compressor is reduced. There is no defrosting at the correct time. In particular, according to the present invention, it is possible to reduce the defrosting time to a minimum since the defrosting completion time is determined from the defrosting state of the evaporator and the defrost heater is stopped. Therefore, the present invention is effective in maintaining the refrigerator in an optimal state as well as reducing power consumption by preventing a large rise in the internal temperature after the defrosting operation.

Claims (8)

Detecting whether the compressor is in an operating state and integrating the operating time in the operating state; forcibly stopping the compressor operation when the accumulated compressor operating time reaches a predetermined reference time; Selecting the fridge defrost mode and the fridge and freezer defrost heaters in the stopped state, and selectively operating the fridge and freezer defrost heaters, and detecting the defrost state of each evaporator after the fridge and freezer defrost heaters are activated. Selectively stopping the operation of the refrigerator compartment and the freezer defrost heater when released, and releasing the compressor operation stop state after the heater operation is stopped. 2. The method according to claim 1, wherein when the refrigerating compartment defrost mode is selected, 1 is counted as the refrigerating compartment defrost count after the refrigerating compartment defrost heater operation, and when the refrigerating compartment and freezer defrost heater mode is selected, A refrigerator operation count is cleared to 0, and the defrosting operation method of the refrigerator according to the count is determined by selecting the refrigerator compartment defrost mode and the refrigerator compartment and freezer defrost mode. The method according to claim 1, wherein a predetermined idle time is counted simultaneously with stopping the refrigerator defrost heater in the refrigerator compartment defrost mode and stopping the refrigerator and freezer defrost heater operation in the refrigerator compartment and the freezer defrost mode, and counting the idle time after the pause time passes. And a defrosting operation method of the refrigerator, characterized in that for performing the step of stopping the compressor operation after clearing. 4. The method for defrosting a refrigerator according to claim 3, wherein said idle time is set to about 10 minutes. Heater drive unit for driving the refrigerator compartment and freezer defrost heater, respectively, compressor operation detection unit for detecting the operating state of the compressor, defrost state detection unit for detecting each defrost state of the refrigerator compartment and freezer compartment evaporator, and the compressor operation detection The compressor operation time is integrated according to the negative signal, and when the predetermined integration time is reached, the compressor is forcibly stopped, and then the refrigerator compartment and the freezer compartment heater are selectively operated through the heater driving unit. And a microcomputer control unit for controlling a predetermined program for releasing the state of the compressor operation stop after stopping each heater operation. The refrigerator according to claim 5, wherein the microcomputer control unit has a function of selecting a refrigerator compartment defrost mode and a refrigerator compartment and a freezer compartment defrost mode, and counting 1 as a refrigerator compartment defrost count after operation of the refrigerator compartment defrost heater in the refrigerator compartment defrost mode. When the defrost mode is selected, the refrigerator compartment count is cleared to zero after the operation of the refrigerator compartment and the freezer compartment defrost heater, and the refrigerator compartment defrost mode and the refrigerator compartment and freezer defrost mode are determined and selected according to the count. Defrosting device of the refrigerator. 6. The method of claim 5, wherein the microcomputer control unit counts a predetermined downtime simultaneously with stopping the refrigerator compartment defrost heater for defrosting the refrigerator compartment and deactivating the refrigerator compartment and the freezer defrost heater for defrosting the refrigerator compartment and the freezer compartment. And defrosting the compressor stop state after clearing the counted down time. 8. The defrosting apparatus for a refrigerator according to claim 7, wherein said idle time is set to about 10 minutes.