KR19990061276A - Defective Sensor Defect Detection Method for Refrigerator - Google Patents

Abstract

A method of detecting a defrost sensor of a refrigerator, wherein, when the defrost mode starts, driving the refrigerator compartment fan for a set time to raise the ambient temperature before the defrost heater is heated, and the driving time of the refrigerator compartment fan has elapsed. If the temperature of the evaporator is lower than the set temperature value, and if the ambient temperature of the evaporator is higher than the set temperature value, the defrost sensor recognizes that it is normal and generates the defrost heater until the defrost return temperature. After defrosting and terminating the defrosting, and if the ambient temperature of the evaporator is less than the set temperature value, recognizing that an error occurred due to a characteristic defect of the defrost sensor, and displaying an error occurrence, if the defrost sensor characteristic defect occurs Le including the step of terminating the defrost after heating for a predetermined time After rotating the refrigerating fan for a while, the defrost sensor checks the temperature of the evaporator to detect the characteristic defect and even if the defrost sensor is defective, the defrosting is performed for a set time and then the defrost is restored at an appropriate time, thus improving safety. .

Description

Defective Sensor Defect Detection Method for Refrigerator

The present invention relates to a method for controlling a refrigerator, and more particularly, to a method for detecting a defective defrost sensor of a refrigerator, which detects a characteristic defect of a defrost sensor before entering a defrost mode.

In general, the refrigerator has a defrost heater to remove frost generated around the evaporator. If the accumulated operation time of the compressor is more than a predetermined time (for example, 8 hours), the defrost is unconditionally entered, and the accumulated time of the compressor is a predetermined time (for example; If the cumulative door opening time exceeds a predetermined time (for example, 10 minutes) in a state of 5 hours or more, the defrost is started at that time.

When entering the defrost mode, the defrost sensor detects the ambient temperature of the evaporator while heating the defrost heater. When the temperature detected by the defrost sensor reaches the set heater-off temperature (eg 13 ℃), the defrost heater automatically stops heating. do.

When the temperature sensed by the defrost sensor is less than the set heater off temperature, the defrost heater is turned off after being heated for a predetermined time (for example, 45 minutes in the home refrigerator).

In particular, if the defrosting sensor fails to detect the defrosting sensor during defrosting, the defrosting heater continues to generate heat. Therefore, the defrosting is stopped because the temperature fuse is cut at a predetermined temperature (eg 70 ° C.) The defrost heater continues to heat up for a specified time and then turns off.

In addition, when the compressor detects a temperature below -20 ℃ by reading the ambient temperature of the evaporator with the defrost sensor, it recognizes that the characteristics of the defrost sensor are good, and the temperature value read from the defrost sensor is -5 ℃ or more. In this case, it is recognized that the characteristics of the defrost sensor is bad and take action accordingly.

As described above, in the conventional defrost sensor, when the characteristic curve of the defrost sensor changes to a higher temperature or a lower temperature than the normal state, a characteristic defect that changes toward the temperature can be detected in the same manner as described above. Characteristic defects cannot be detected by conventional methods.

Therefore, there is a risk that the defrost heater will continue to generate heat due to poor characteristics of the defrost sensor during defrosting, and the defrost heater or the temperature fuse may be cut off. The temperature of the freezer compartment is increased due to unnecessary heat generation of the defrost heater, so that the freshness of the food inside the refrigerator cannot be maintained and power is wasted.

The present invention has been made to solve the above-mentioned problems of the prior art, the object of the present invention is to detect a characteristic defect by checking the temperature of the evaporator with a defrost sensor after rotating the refrigerating chamber fan for a predetermined time and to the defrost sensor The present invention provides a method of detecting a failure of a defrost sensor of a refrigerator which improves safety by performing defrost for a predetermined time and then returning to defrost at an appropriate time.

In addition, even if the characteristic defect of the defrost sensor changes to a lower temperature, the defrost heater generates heat only for a set time, thereby providing a defrost sensor failure detection method of the refrigerator to prevent unnecessary defrost heater or disconnection of the temperature fuse. Is in.

In addition, the present invention provides a method of detecting a defrost sensor of a refrigerator that reduces power waste due to unnecessary defrosting and prevents internal food from melting or spoiling due to a high internal temperature rise.

The defrost sensor detection method of the refrigerator according to the present invention is characterized in that, when the defrost mode starts, the step of driving the refrigerator compartment fan for a set time before the heating of the defrost heater to increase the ambient temperature of the evaporator, the drive of the refrigerator compartment fan After the set time has elapsed, turn off the refrigerator compartment fan and determine whether the evaporator ambient temperature is below the set temperature value, and if the evaporator ambient temperature is higher than the set temperature value, the defrost sensor recognizes it as normal and until the defrost return temperature is reached. Defrosting the heater after heating the defrost heater, and if the ambient temperature of the evaporator is below the set temperature value, recognizing that an error has occurred due to a characteristic defect of the defrost sensor and indicating an error occurrence, and a characteristic defect of the defrost sensor. If the defrost heater generates heat for a predetermined time after the step of including defrosting After rotating the refrigerating chamber fan for a predetermined time, the defrost sensor checks the temperature of the evaporator to detect characteristic defects, and even if the defrost sensor occurs, defrosting for a set time and then returning the defrost at an appropriate time, improving safety. have.

According to the on and off operation of the compressor and the freezer fan, according to the temperature detected by the refrigerator compartment temperature sensor to turn on / off the refrigerator compartment fan to release the door switch error.

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

2 is a flowchart illustrating a defrost sensor detection method of a refrigerator according to the present invention.

Explanation of symbols on the main parts of the drawings

10: micom 30: fan drive unit

40: heater driving unit 50: display unit

D-S: Defrost Sensor

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the defrost sensor detection method of the refrigerator according to the present invention will be described.

1 is a block diagram of a refrigerator according to the present invention, Figure 2 is a flow chart showing a method for detecting a defrost sensor failure of the refrigerator according to the present invention.

Referring to Figure 1, the refrigerator according to the present invention is a microcomputer 10 for controlling the overall operation related to the temperature control in the high temperature, and a temperature sensing unit 20 for detecting the evaporator temperature at the time of defrost and input to the microcomputer 10; In accordance with the control signal of the microcomputer 10, the AC power supply (AC) is supplied to the refrigerator for cooling fan, the fan drive unit 30 for rotating or stopping the fan, and the defrost heater (HTR) in accordance with the control signal of the microcomputer 10 To the heater driver 40 for heating or turning off the defrost heater by switching the supply of AC power to the < RTI ID = 0.0 >) < / RTI > and the display unit 50 for displaying the operation state of the refrigerator or the occurrence of an error according to the control signal of the microcomputer 10. Consists of.

Here, the temperature sensing unit 20 is mounted around the evaporator, the resistance of the resistance value is variable according to the temperature at the time of defrosting, and the resistance connected to the defrosting document (DS) to distribute the voltage (Vcc) It consists of (R1).

The microcomputer 10 compares the detected internal temperature with the set temperature in order to maintain the internal temperature at the set temperature, and continuously operates and stops the compressor, the freezer fan, and the refrigerating fan according to the comparison result in the evaporator. Inject cold air into the freezer or refrigerator compartment.

The fan driving unit 30 is a relay RY1 that is turned on / off according to the output signal of the microcomputer 10, a diode D1 connected to both ends of the relay RY1, and the relay RY1 is turned on / off. It consists of a refrigerating chamber fan that is switched or alternately switched to AC power supply.

The heater driving unit 40 is a relay (RY2) is turned on / off according to the output signal of the microcomputer 10, the diode (D2) connected to both ends of the relay (RY2), and as the relay (RY2) is turned on / off An AC power supply AC is switched to constitute a defrost heater HTR that generates heat or turns off.

The defrost sensor detection method of the refrigerator according to the present invention configured as described above is as follows.

2, the defrost sensor detection method of the refrigerator according to the present invention

First, the microcomputer 10 enters the defrost mode when the accumulated operating time of the compressor is greater than or equal to a predetermined time or the cumulative time of the compressor is greater than or equal to a predetermined time.

When the defrost mode starts, the microcomputer 10 outputs a low potential signal to the fan driver 30 before the defrost heater HTR generates heat, and this signal is applied to one side of the relay RY1, so that the relay RY1 is applied to the relay RY1. The current flows and is driven, whereby the relay RY1 switch position is connected, so that the AC power source AC is supplied to the refrigerating chamber fan and the fan rotates (step S1).

Here, when the refrigerating chamber fan is rotated, since the cold air from the evaporator flows into the refrigerating compartment, the temperature of the refrigerating compartment decreases, while the evaporator is deprived of the cold air, so when the refrigerating compartment fan is rotated for 10 minutes, the ambient temperature of the evaporator is- It rises to 5 degreeC--10 degreeC.

When the refrigerating compartment fan is turned on as described above, it is determined whether the set time (for example, 10 minutes) has elapsed (step S2), and the refrigerating compartment fan is rotated until the set time has elapsed. Outputs to turn off the refrigerating compartment (step S3).

Next, the ambient temperature value detected by the defrost sensor DS of the temperature detection unit 20 is read (step S4), and it is determined whether the detected temperature value is lower than or equal to the set temperature value (for example, -15 ° C). (Step S5).

When the temperature value detected by the defrost sensor DS is higher than the set temperature value, the defrost sensor DS is recognized as normal, and a low potential signal is output to the heater detector 40 to drive the relay RY2. As a result, since the relay RY2 switch is connected, the AC power AC is supplied to the defrost heater HTR to generate heat (step S6).

When the time elapses in this state, the temperature value detected by the defrost sensor DS is compared with the set heater off temperature, and when the detected temperature value is equal to or higher than the heater off temperature, a high potential signal is output to the heater driver 40. Thus, the relay RY2 is turned off. At this time, the relay RY2 is opened to cut off the AC power source AC, so that the heat generation of the defrost heater HTR is stopped and the defrost is terminated (step S7).

On the other hand, if the temperature value detected by the defrost sensor (DS) in step (S5) is less than the set temperature value, the microcomputer 10 recognizes that an error due to the characteristic defect of the defrost sensor (DS) has occurred (step S8) Then, the display unit 50 is driven to display an error occurrence (step S9).

After that, the microcomputer 10 outputs a low potential signal to the heater driver 40 to heat the defrost heater HTR, and determines whether the set defrost return time (eg, 30 minutes) has elapsed to determine the defrost heater HTR. After energizing for a time, it turns off and finishes defrosting (step S10).

Defrost sensor detection method of the refrigerator according to the present invention by rotating the fan for the refrigerating chamber for a predetermined time to check the temperature of the evaporator with a defrost sensor to detect the characteristic defects and defrost for a set time even if the defrost sensor occurs After the defrost is restored at an appropriate time, safety is effective.

In addition, the defrost heater generates heat only during the set time even when the characteristic curve of the defrost sensor changes to the lower temperature, thus preventing the defrost heater or the fuse of the temperature fuse from being disconnected. Due to the rise, there is an effect that can prevent the internal food from melting or spoiling.

Claims (3)

In the control method of the refrigerator, When the defrost mode is started, driving the refrigerating compartment fan for a predetermined time before heating the defrost heater to increase the ambient temperature of the evaporator; Turning off the refrigerator compartment fan and determining whether the ambient temperature of the evaporator is equal to or less than the set temperature value when the operation of the refrigerator compartment fan has elapsed; Recognizing that the defrost sensor is normal when the ambient temperature of the evaporator is higher than the set temperature value, heating the defrost heater until the defrost return temperature, and then ending defrosting; Displaying an error occurrence by recognizing that an error occurs due to a characteristic defect of a defrost sensor when the ambient temperature of the evaporator is lower than a set temperature value; Defrost sensor failure detection method of the refrigerator, characterized in that the defrosting heater generates heat for a predetermined time and then defrosting if the characteristic defect occurs. The method of claim 1, Defrost sensor failure detection method of the refrigerator characterized in that it is determined that the characteristic defect of the defrost sensor occurs when the ambient temperature of the evaporator is less than -15 ℃. The method of claim 1, Defrost sensor failure detection method of the refrigerator, characterized in that for causing the defrost heater to generate heat for 30 minutes when the characteristic defect of the defrost sensor occurs.