KR930004431Y1 - Disconnecting detecting circuit in temperature sensor - Google Patents

Abstract

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Description

Disconnection detection circuit of temperature sensor

Figure is a disconnection detection function circuit diagram of a heat generation sensor of a heater using a microcomputer according to the present invention.

* Explanation of symbols for main parts of the drawings

2: control means 4: voltage divider circuit

8: temperature sensor Rs: temperature sensor

The present invention is to check the disconnection of the sensor, and particularly relates to a function for detecting the disconnection of the temperature sensor for detecting the heat generated by the heater of the refrigerator.

The defrosting operation in the refrigerator is configured to start when a value obtained by counting the operation integration time of the compressor reaches a set time value. By this matched signal, the microcomputer, which is a control means of the refrigerator, drives the defrost heater, and the frost generated in the cooler is melted by the heating of the heater. Then, the sensor, which is a temperature sensing element, is installed in the cooler to adjust the completion time of the defrosting operation according to the value indicated by the sensor. In other words, the operating time of the heater is properly controlled when the sensor reaches a proper temperature by inputting a voltage value related to the temperature of the sensor according to the heating of the defrost heater to the microcomputer.

However, since excessive heat generation of the heater may cause a fire, there is a facility to cut off the power applied to the heater when an excessive power is applied to the heater by using a fuse in case of emergency. The heater could generate heat indefinitely because no control signal is input to the microcomputer when the sensor breaks down.

Therefore, the present invention is to solve the above problems, to provide a function for detecting the disconnection of the temperature sensor, and to prevent the occurrence of a fire due to overheating of the heater in advance, such a function with reference to the accompanying drawings It will be described in detail as follows.

Referring to the drawings, the temperature sensing unit 8 for sensing the heat of the defrost heater; A voltage divider circuit 4 of resistance; Means (6) for forming a path constituting another voltage divider circuit together with a portion of the voltage divider circuit (4); A terminal P2 receiving a voltage from the voltage dividing circuit 4, a terminal P3 generating a driving signal to the means 6, and a terminal receiving a signal from the temperature sensing unit 8 ( It is composed of a control means 2 including P4, and a display portion 10 for outputting and displaying an abnormal state when necessary is shown together.

The control means 2 is a microcomputer installed in the M-PCB of the refrigerator and performs a function of converting the signal from the analog circuit into a digital signal and the output signal from the microcomputer into an analog signal by a program. It consists of a means including a / D converter.

The voltage divider circuit 4 is composed of series resistors R1, R2, and R3, and the path forming means 6 generates resistors R8 and R7 in accordance with the signal of the output terminal P3 of the control means 2. Turn on by the 'H' signal to be applied. As it is turned off, different distribution voltages are output to the terminal P2 of the control means 2.

The temperature sensing unit 8 is composed of a resistive temperature sensor Rs and a resistor R4 and generates a voltage input to the terminal P4 of the control means by sensing the heat generated temperature of the defrost heater.

Now, the operation and effects are explained. In the normal normal operation, since the 'L' signal is output from the terminal P3 of the control means 2, the transistor TR1 is turned off and controlled by the voltage dividing circuit 4. A constant voltage is applied to the terminals P1 and P2 of the means. The voltages applied to the terminals P1 and P2 are the A / D converter reference voltages of the microcomputer.

When the operation integration time of the compressor is a defrost condition, the low temperature means 2 operates the defrost heater and checks whether there is an abnormality of the sensor by setting the terminal P3 to the 'H' state. Transistor TR1 is turned on to form a voltage divider circuit composed of resistors R1, R2, and TR1. Therefore, it is applied as a reference voltage of a specific value to the terminal P2 of the control means. In addition, the terminal P4 is applied with a voltage related to the heat generation of the heater detected by the temperature sensor 8. The values applied to the terminals P2 and P4 of the microcomputer are converted into digital values and compared. If the voltage of the terminal P4 is higher than the voltage of the terminal P2, it is determined that the sensor Rs is normal. L 'signal is output to reduce the initial state. The control means 2 continues its operation.

If the sensor is faulty, i.e. disconnected, current will not flow through resistor R4, so the voltage applied to resistor R4 will be almost zero voltage. Therefore, the voltage 'O' is applied to the terminal P4. As described above, the control means 2 compares the reference voltage applied to the terminal P2 with the voltage applied to the terminal P4 according to the 'H' signal of the terminal P3 so that the voltage of the terminal P2 is reduced to the terminal ( When it is higher than P4), the sensor disconnection will be checked. Accordingly, a driving signal is generated to the output unit 10 to drive the light emitting diode to inform this state. In addition, an operation program of the refrigerator may cause the defrosting operation of the refrigerator to be stopped or other measures may be taken.

As described above, by using a microcomputer that adjusts the operation (defrost) time of the defrost heater by the detection signal of the sensor, it is possible to detect whether the sensor is disconnected according to the present invention, thereby preventing overheating by the heater in advance. It becomes possible.

Claims (1)

A refrigerator for controlling a defrosting time of a defrosting heater according to a signal of a temperature sensor using a microcomputer, comprising: a temperature sensing unit (8) including a temperature sensor (Rs) for detecting heat generation of a defrosting heater; A voltage divider circuit 4 composed of resistors R1, R2 and R3; Means (6) for forming a path constituting another voltage divider circuit together with a portion of the voltage divider circuit (4); A terminal P2 receiving a signal from the voltage dividing circuit 4, a terminal P3 generating a driving signal to the path means 6, and a terminal receiving a signal from the temperature sensing unit 8. A disconnection detection circuit of a temperature sensor using a microcomputer including control unit (2) for comparing signals of the terminals (P2) and (P4), including (P4).