KR0156279B1 - Defrost heater wire detecting device of a refrigerator - Google Patents

Abstract

The present invention detects a disconnection of a defrost heater or other electrical equipment, and when a disconnection is detected during defrosting, cancels the defrost mode and informs the user that an error has occurred due to the disconnection. It relates to a sensing device.

The present invention is provided with a heater energization detecting unit for detecting whether the defrost heater is energized and input to the microcomputer, the microcomputer determines whether the defrost heater is energized by the output signal of the heater energization detection unit while generating a defrost heater when the defrost mode starts. If the defrost heater is not energized due to the disconnection of the defrost heater or other electrical equipment, an error code is generated and the alarm is deactivated. Then, the defrost mode is canceled and normal temperature control is performed.If the defrost heater is energized, the defrost mode is activated. Will proceed as is.

Description

Defrost heater disconnection detection device of refrigerator

1 is a block diagram of a defrost heater disconnection detection device of a refrigerator to which the present invention is applied.

2 is a control flowchart for explaining the operation of the microcomputer in FIG.

* Explanation of symbols for main parts of the drawings

10: micom 20: heater driving unit

30: heater energization detection unit HTR: defrost heater

PT1: Photocoupler RY1: Relay

The present invention relates to the failure diagnosis and stability improvement of the refrigerator. In particular, when disconnection is detected in a state in which the defrost heater or other electric equipment is disconnected and the defrost heater is heated, the defrost mode is released and an error is generated by disconnection. The present invention relates to a defrost heater disconnection detection device of a refrigerator that informs a user so that a user can receive after-sales service quickly.

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, 9 hours), the defrost is unconditionally entered, and the cumulative time of the compressor is a predetermined time (for example; If the cumulative door opening time is longer than a predetermined time (for example, 10 minutes) in a state of 6 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 exceeds the set heater off temperature, the defrost heater automatically stops heating, but by the defrost sensor. If the detected temperature is below the set heater off temperature, the defrost heater is turned off after being heated for a set time (eg, 90 minutes).

However, in this method, there is no circuit to detect the defrost heater even if the defrost heater is disconnected or the heat of the defrost heater is cut off due to the continuous heating of the defrost heater. There was a problem that the heat exchange efficiency is lowered.

In addition, disconnection of the defrost heater and other electrical equipment, for example, the disconnection of the temperature fuse, etc. is not known to the user, so that the defrost heater is energized unnecessarily, and the electricity supply time of the defrost heater is compared with the temperature value of the defrost sensor. If the defrost heater does not pass over time, it is recognized that the defrost heater is broken, so it is difficult to detect the disconnection accurately and quickly, so that it takes a long time to receive the after-sales service.

The present invention is to solve the conventional problems as described above, the object of the present invention is to detect the energization of the defrost heater when in the defrost mode, if the energization is not detected by the defrost heater or other electric field disconnection of the defrost mode It is to provide a defrost heater disconnection detection device of a refrigerator so as to improve the safety by releasing.

Another object of the present invention is to detect the disconnection of the defrost heater or other electrical equipment and to inform the user that an error has occurred due to the disconnection during defrosting to reduce the energization time of unnecessary defrost heater and to receive a fast after-service defrost It is to provide a heater disconnection detection device.

It is another object of the present invention to provide a defrost heater disconnection detection device of a refrigerator capable of preventing deterioration of the efficiency of an evaporator by performing defrost in a timely manner by quickly and accurately detecting a disconnection of a defrost heater or other electrical equipment and requesting an action thereto. It is.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 and 2.

Figure 1 shows the configuration of the defrost heater disconnection detection apparatus in the refrigerator to which the present invention is applied.

As shown in the drawing, the refrigerator of the present invention switches the AC power supply to the defrost heater HTR according to the control signal of the microcomputer 10 and the microcomputer 10 for controlling the overall operation related to the internal temperature control. The heater driving unit 20 to heat or turn off the defrost heater, and the heater conduction detection unit 30 to detect whether the defrost heater (HTR) is energized and input to the microcomputer 10.

Here, the heater driving unit 20 is provided at both ends of the buffer BUF1 for transmitting the output signal of the microcomputer 10, the relay RY1 turned on / off according to the output signal of the buffer BUF1, and the relay RY1. When the connected diode D1, the relay RY1 is turned on / off, the AC power supply AC is switched to generate a defrost heater HTR and the defrost heater HTR is heated to a predetermined temperature. It consists of a temperature fuse (F1) that breaks off when it reaches and stops the defrost.

The heater energization detecting unit 30 is connected between the defrost heater HTR and the AC power source AC and is turned on / off according to whether the defrost heater HTR is energized, and the photocoupler PT1. Is composed of a resistor (R1) (R2) and a capacitor (C1) for inputting the divided voltage to the microcomputer 10 in accordance with the on / off operation of.

FIG. 2 is a control flow chart showing the defrost heater disconnection detection method of the microcomputer in FIG.

First, the microcomputer 10 enters the defrost mode when the accumulated operating time of the compressor is longer than the set time or when the cumulative time of the compressor is more than the predetermined time.

When the motor enters the defrost mode, the microcomputer 10 outputs a low potential signal to the heater driver 20, and since the signal is applied to one side of the relay RY1 through the buffer BUF1, current flows in the relay RY1. Since the relay RY1 switch is connected, AC power is supplied to the defrost heater HTR to generate heat (step S1).

In this state, the heater energization detecting unit 30 detects whether the defrost heater HTR is energized. When the defrost heater HTR is energized, the photodiode of the photocoupler PT1 emits light by the AC power source AC. Therefore, the phototransistor senses the light and repeats the on / off operation accordingly, that is, the same as the operation of the photodiode.

When the photocoupler PT1 is turned on, a low potential signal is applied to the microcomputer 10. When the photocoupler PT1 is turned off, the DC power supply voltage Vcc divided by the resistors R1 and R2 is divided. It is applied at high potential.

The microcomputer 10 determines whether the defrost heater HTR is energized according to the output signal of the heater energization detector 30 (step S2), while the heater driver 20 is driven. If the output signal of C1) is continuously input in the high potential state, it is recognized that the defrost heater HTR is not energized due to the disconnection of the defrost heater HTR or the temperature fuse F1 (step S3).

Therefore, an error code is generated through the display unit or the alarm unit to inform the user that an error has occurred due to the disconnection of the defrost heater (HTR) or other electrical equipment (step S4), and the high-frequency teeth are output to the heater driver 20 to defrost. The power supply to the heater HTR is stopped (step S5), and the defrost mode is released (step S6).

At this time, the electric current does not flow to the relay RY1 due to the high potential signal input to the heater driver 20, and when the relay RY1 is turned off, the relay RY1 is opened so that AC power supply to the defrost heater HTR is performed. Is blocked.

After the defrost mode is released as described above, a normal internal temperature control operation is performed (step S7).

On the other hand, when the output signal of the heater energization detecting unit 30 is periodically input in the low potential / high potential state in the microcomputer 10, the defrost heater (HTR) is recognized as energized without disconnection, and the defrost mode is performed as it is. (Step S8).

That is, the defrost sensor senses the ambient temperature and continuously generates the defrost heater HTR until the detected temperature reaches the set heater off temperature, and when the heater off temperature is reached, a high potential signal is transmitted to the heater driver 20. Outputs to stop the heat generation of the defrost heater (HTR) and complete the defrost.

As described above, the present invention can improve safety by sensing the energization of the defrost heater during defrosting and recognizing the disconnection of the defrost heater or other electric equipment if the electric current of the heater is not electric shock, thereby releasing the defrost mode.

In addition, it detects the disconnection of defrost heater and other electrical equipment quickly and accurately and informs the user that an error has occurred, so that it can reduce the energization time of unnecessary defrost heater, get quick after-sales service, and reduce heat exchange efficiency of evaporator. There is an effect such as to prevent.

Claims (3)

A refrigerator for performing defrost by periodically heating a defrost heater, the refrigerator comprising: a heater energization detector configured to detect whether electricity is being supplied to the defrost heater and input the same to a microcomputer; Determining whether the defrost heater or other electrical equipment is disconnected by using the output signal of the heater energization detection unit, and if a disconnection is detected during defrosting, it comprises a micom for controlling to turn off the heating of the defrost heater and display that an error has occurred. Defrost heater disconnection detection device of a refrigerator. The apparatus of claim 1, wherein the heater energization detecting unit comprises: a photocoupler connected between a defrost heater and an AC power source and on / off depending on whether the defrost heater is energized; Defrost heater disconnection detection device of the refrigerator characterized in that the first and second resistors and capacitors for inputting the voltage divided by the on / off operation of the photocoupler. The method of claim 1, wherein the microcomputer generates the defrost heater when the defrost mode is started, and determines whether the defrost heater is energized by the output signal of the heater energization detector, and when the defrost heater is not energized due to the disconnection of the defrost heater or other electrical equipment. Defrost heater disconnection detecting device of the refrigerator, characterized in that by generating an error code, the defrost mode is released and the normal temperature control operation is performed, and if the defrost heater is energized, the defrost mode is left as it is.