KR0161925B1 - Defrosting process method of a refrigerator - Google Patents

Abstract

The present invention rotates the refrigerating fan immediately after defrosting in the refrigerator to remove the water droplets and moisture remaining on the surface of the evaporator to prevent freezing during the re-start of the freezing cycle to slow down the defrosting cycle Since it can be kept long, it is possible to reduce the power consumption, and to increase the performance of the evaporator has many advantages, such as to improve the defrosting efficiency.

To this end, the present invention comprises the steps of circulating the air in the refrigerating compartment (5) around the evaporator by rotating the fan for the internal chamber for a predetermined time during defrosting, and after the predetermined time elapses, the refrigerating compartment fan (4) is turned off and defrosted Operating the defrost heater until it melts, and when the defrost temperature sensor detects the temperature at which the frost melts, the defrost heater is turned off and the water droplets attached to the surface of the evaporator 2 are removed again to refrigerate the fan 4. Rotating the lamp, and when the temperature sensed by the defrost temperature sensor rises to a predetermined temperature, turning off the refrigerator compartment fan 4 and drying the water on the surface of the evaporator 2 again; When the predetermined temperature rises again by the detection of the defrost temperature sensor, the defrosting process of the refrigerator is configured to sequentially turn off the defrost heater and end the defrost.

Description

How to defrost refrigerator

(A) and (b) of FIG. 1 are longitudinal cross-sectional views each showing a conventional refrigerator.

2 is a graph showing temperature change with time of a defrost temperature sensor during defrosting in the refrigerator of FIG. 1.

3 is a flow chart for achieving the defrosting method of the present invention.

Figure 4 is a longitudinal sectional view showing a refrigerator according to the present invention.

5 is an installation state of the defrost temperature sensor for detecting the temperature of the evaporator.

6 is a graph showing the temperature change with time of the defrost temperature sensor during defrosting in the refrigerator of FIG.

* Explanation of symbols for main parts of the drawings

1: freezer 2: evaporator

4: fan for refrigerator compartment 5: refrigerator compartment

6a, 6b: Defrost temperature sensor

The present invention relates to a method of defrosting a refrigerator, and more particularly, to prevent freezing of the water droplets remaining on the evaporator by surface tension after defrosting in the refrigerator, when the refrigerator is restarted. It is to be done.

In the conventional refrigerator of FIG. 1A, a defrost heater (not shown) installed in the evaporator 2 is operated to heat the evaporator 2, and a defrost temperature sensor attached to the evaporator 2 (not shown). The defrost heater is turned off by the control circuit when the temperature reaches a certain temperature (10-15 ℃), and the temperature change with time of the defrost temperature sensor until the defrost heater is turned off is shown in FIG. As the defrost heater is operated, the temperature of the evaporator 2 and the frost formed on the surface thereof initially increases, and when it reaches near 0 ° C, the ice is kept at 0 ° C until the ice melts due to the latent heat of melting of ice. After melting, the temperature rises rapidly.

In addition, in the refrigerator as shown in FIG. 1 (b), freezer and refrigerator compartment fans 3a and 4a are installed, and as the bet is circulated by the respective fans 3a and 4a, the refrigerator for the refrigerator in the beginning of defrosting (4a) is operated to circulate air in the refrigerating compartment, which is relatively hot relative to the temperature of the evaporator 2, through the evaporator 2 to cool the air in the refrigerating compartment and to heat the evaporator 2 and the frost for about 5 minutes. In this case, the temperature of the defrost temperature sensor is increased as shown by the dotted line in FIG. 2, and then the defrost function is performed by operating the defrost heater to melt frost.

However, such a conventional refrigerator remains defrosted in the form of water droplets attached to the surface of the evaporator 2 after defrosting and freezes when the refrigeration cycle is restarted, thereby increasing the rate of implantation and the amount of defrosting. As a result of the shortening, frequent power consumption is required due to frequent defrosting cycles, and the performance of the evaporator 2 due to excessive conception is reduced, resulting in poor cooling.

The present invention is to solve the above-mentioned problems, so that the water droplets attached to the surface of the evaporator by the surface tension after defrosting in the refrigerator is not removed but can be prevented from freezing upon restart of the refrigeration cycle. The purpose of the present invention is to provide a method of defrosting a refrigerator that can increase the performance of the evaporator to improve the defrosting efficiency.

In order to achieve the above object, the present invention rotates the refrigerating compartment fan during the initial definite period of time during defrosting, and circulates the air in the refrigerating compartment around the evaporator, and after the predetermined time elapses until the built-in compartment fan is defrosted until the frost melts. Operating the heater, and when the defrost temperature sensor detects the frost melting temperature, turning off the defrost heater and rotating the refrigerating compartment fan again to remove water droplets attached to the surface of the evaporator. When the detected temperature rises to a certain temperature, the refrigerator compartment fan is turned off and the defrost heater is operated again to dry the water on the surface of the evaporator. When the predetermined temperature rises again by the detection of the defrost temperature sensor, the defrost heater is turned off. The defrosting method of the refrigerator to proceed sequentially to end the defrosting .

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 3 and 4 of the accompanying drawings.

Figure 3 is a flow chart for achieving the defrosting method of the present invention, Figure 4 is a longitudinal sectional view showing a refrigerator according to the present invention, Figure 5 is a state diagram of the installation of the defrost temperature sensor for sensing the temperature of the evaporator, Figure 6 As a graph showing the temperature change of the defrost temperature sensor during defrosting in the refrigerator of 3 degrees, the defrosting method of the refrigerator according to the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, a freezing compartment and a refrigerating compartment fan (3) (4) which are rotated to blow air toward the evaporator (2), respectively, are installed at the rear upper portion of the freezing compartment (1), and defrost temperature sensors on both sides of the evaporator (2). (6a) (6b) in the installed state of each defrosting during the initial defrosting start about 5 minutes after the start of the compressor (not shown) and the freezer fan (3) is stopped, only the refrigerator compartment fan (4) is rotated The air in the refrigerating chamber 5 is blown around the evaporator 2 so that the temperature of the surface of the evaporator 2 is raised and the refrigerating chamber 5 is cooled.

At this time, the frost that has frozen on the surface of the evaporator 2 starts to melt by the wind blown by the refrigerating chamber fan 4.

Then, when the normal temperature value detected by each of the defrost temperature sensors 6a and 6b becomes 0 ° C, the refrigerating chamber fan 4 is turned off, and the defrost heater (not shown) is a temperature at which frost melts. Operate until about 1 ° C.

Then, when the sensing temperature of the defrost temperature sensors (not shown) respectively installed on both sides of the upper part of the evaporator 2 reaches about 1 ° C as the average value of the two, the defrost heater is turned off, and the refrigerating chamber fan 4 is again turned on. By rotating, water droplets attached to the surface of the evaporator 2 are removed.

Then, when the average value of each defrost temperature sensor reaches 3 ° C., the refrigerator compartment fan 4 is turned off and the defrost heater is operated again to dry the surface of the evaporator 2. Then, the defrost temperature sensor is about 13 ° C. When the defrost heater is off, it is possible to complete the defrost.

Meanwhile, the reason why the defrost temperature sensors 6a and 6b are installed on both sides of the evaporator 2 is to more accurately detect the temperature of the evaporator surface, that is, when the defrost temperature sensor is installed only on one side of the evaporator. Only one side temperature of is detected and there is a risk of error from the actual evaporator surface temperature. Therefore, the temperature of the evaporator surface can be accurately measured by detecting the temperature of both sides of the evaporator and making the average value of each detected temperature value as the final sensing temperature. It was checked.

As described above, the present invention freezes upon restart of the refrigerating cycle by rotating the refrigerating compartment fan 4 immediately after melting the frost at the time of defrosting in the refrigerator to completely remove the water droplets and water remaining on the surface of the evaporator (2). It is possible to reduce the defrosting rate by keeping the defrosting period long, thereby reducing the power consumption, and increasing the performance of the evaporator 2 to improve the defrosting efficiency.

Claims (3)

When defrosting, the internal fan of the internal compartment 4 is rotated to blow air in the refrigerating compartment 5 to the evaporator, and after the predetermined time elapses, the refrigerator compartment fan 4 is turned off and the defrost heater is defrosted until the frost melts. Operating the step, and when the defrost temperature sensor detects the melting temperature of the frost, rotating the refrigerating compartment fan 4 again to remove the water droplets attached to the surface of the evaporator 2, and the defrost temperature sensor detects the temperature. When the temperature rises to a certain temperature, the refrigerator compartment fan 4 is turned off and the defrost heater is operated again to dry the water on the surface of the evaporator 2, and the constant temperature is raised again by the detection of the defrost temperature sensor. The defrosting method of the refrigerator, characterized in that to proceed sequentially to turn off the defrost heater and end the defrost The method of claim 1, wherein the freezer compartment and the refrigerating compartment fan are respectively rotated in the rear upper part of the freezer compartment to blow air toward the evaporator. The method of claim 1, wherein the defrost temperature sensors are respectively installed on both sides of the upper part of the evaporator, and the average value of the temperature values of both sides of the evaporator checked by the respective defrost temperature sensors is recognized as the final sensing temperature.