KR101053612B1 - Operation Control Method of Washing Machine Using Temperature Sensor of Heat Sink - Google Patents

Abstract

The present invention uses a temperature sensor mounted on an IPM (Intelligent Power Module) heat sink for controlling a motor of a washing machine. The washing machine uses a temperature sensor of a heat sink to prevent a malfunction of the microcomputer due to an increase in the internal temperature. A method of controlling the operation of a washing machine includes: when driving of a washing machine is started, comparing a detected temperature value of the temperature sensor with a first reference temperature value Tref1; when the detected temperature value is large, controlling a motor running rate Lowering the temperature; calculating a temperature drop using a temperature value detected again after a reference time has elapsed, comparing the result with a second reference temperature value Tref2, and controlling the heater driving according to the result. Include.

Washing Machine, IPM, Thermistor, Micom

Description

Method for controlling operation of washing machine using temperature sensor of heat sink unit {Method for controlling function of washer using the thermistor in heat sink}

1 is a block diagram showing a motor / IPM temperature reduction device of a typical inverter washing machine

2 is a flowchart illustrating a method of controlling an operation of a washing machine according to the present invention.

Figure 3 is a graph showing the temperature change of the IPM unit during the operation control of the washing machine according to the present invention

The present invention relates to a washing machine, and more particularly, to a washing machine using a temperature sensor of a heat sink unit which prevents a malfunction of a microcomputer due to an internal temperature increase by using a temperature sensor mounted on an IPM (Intelligent Power Module) heat sink. It relates to a motion control method.

In general, an intelligent power module (IPM) circuit for controlling a motor in an inverter drum washing machine is provided.

Since the motor generates heat in the IPM circuit part, thermistor is installed as a temperature sensing means in the heat sink mounted on the IPM to prevent excessive heat generation in the IPM circuit part.

Hereinafter, a motor / IPM temperature reduction device of an inverter washing machine will be described with reference to the accompanying drawings.

 1 is a block diagram showing a motor / IPM temperature reduction device of a typical inverter washing machine.

The washing machine's motor / IPM temperature reducing device includes a switching unit (IPM) 90 driven by a DC power supply and driven by a washing machine having a heat sink 40 and a motor 10, as shown in FIG. A temperature sensor 50 mounted at a predetermined position of the heat sink 40 to detect the temperature of the unit 90, and a hole mounted to the motor 10 to detect the rotational speed of the motor 10 A microcomputer 70 for outputting a control signal to drive the BLDC motor 10 according to the sensor 20, the temperature of the switching unit 90 sensed by the temperature sensor 50, and the microcomputer 70 The power device driver 80 controls the driving of the motor 10 in accordance with the control signal of.

The operation of the motor / IPM temperature reduction device of the washing machine configured as described above is as follows.

When the DC power is supplied to the switching unit 90 and the control element is output from the power device driving circuit 80 to the switching unit 90 according to the control signal of the microcomputer 70, the motor 10. Is driven.

Then, the Hall sensor 20 mounted on the motor 10 detects the rotational speed of the motor 10 and outputs the detected speed to the speed detecting circuit 30, and the speed detecting circuit 30 outputs the detection result value. The microcomputer 70 processes the recognition of the microcomputer 70 and outputs the microcomputer 70 to the microcomputer 70.

In addition, the temperature sensor 50 mounted on the heat sink 40 directly measures the temperature of the IPM 90 and transmits the temperature to the temperature sensing circuit 60, and the temperature sensing circuit 60 outputs a sensing result value. The microcomputer 70 processes the recognition of the microcomputer 70 and outputs the microcomputer 70 to the microcomputer 70.

That is, when the power is supplied and the washing process proceeds, the motor 10 drives the left / right inversion and the temperature of the motor gradually increases, and the pulsator (not shown) or the washing tank (not shown) When restraint is generated by some external factor or progresses for a long time, the current value of the motor 10 increases and the current value flowing through the IPM 90 also increases, thereby increasing the temperature of the IPM 90.

Therefore, the temperature sensor 50 mounted on the heat sink 40 detects this and transfers it to the microcomputer 70 through the temperature sensing circuit 60. The operation of the motor 10 is controlled based on the preset set temperature.

That is, when the temperature of the IPM 90 is above a certain temperature (100 ° C.), damage of the IPM 90 occurs, so that the temperature rise is constant by controlling the actual operation rate (controlling the on / off time of the motor) of the motor 10. When the value is exceeded, the operating rate of the motor is lowered to prevent the temperature of the IPM 90 from rising, thereby increasing the operating efficiency of the washing machine.

However, such a motor / IPM temperature reduction device and control of the inverter washing machine of the prior art have the following problems.

If an abnormality occurs in the drying unit of the washing machine or the laundry heater, or an abnormality occurs in the thermistor of the heat sink, the temperature control is not performed correctly and the temperature rises continuously.

In this case, the temperature around the microcomputer in the washing machine rises rapidly.

That is, when the temperature rises above the set reference temperature (typically 100 ° C.) and the heater overheats, the protection device TP in the heater stops operating the heater. The temperature around the controller keeps rising.

In the case of a microcomputer or an oscillator, when the temperature rises to 85 ° C. or higher, a malfunction may occur. When a microcomputer malfunction occurs, the washing machine operation itself becomes unstable.

As described above, in the related art, when the temperature rise exceeds a certain value, the operating rate of the motor is lowered to prevent the temperature of the IPM from rising, thereby increasing the operating efficiency of the washing machine. If the thermistor error occurs, the temperature drop does not occur normally, which causes the microcomputer to malfunction.

The present invention is to solve the problem of the temperature control of the conventional washing machine as described above, by using a temperature sensor mounted on the IPM (Intelligent Power Module) heat sink to prevent the malfunction of the microcomputer due to the increase in the internal temperature. It is an object of the present invention to provide a method for controlling the operation of a washing machine using a temperature sensor of a heat sink.

Operation of the washing machine using the temperature sensor of the heat sink according to the present invention for achieving the above object, when the driving of the washing machine is started, the detected temperature value and the first reference temperature value (Tref1) of the temperature sensor Comparing the step; If the detected temperature value is large, controlling the motor running rate to lower the temperature; Using the temperature value detected again after the reference time has elapsed to calculate the size of the temperature fall, and the second reference temperature Comparing the value Tref2 and controlling the heater drive according to the result.

Here, when the detected temperature value is smaller than the first reference temperature value Tref1, the process of detecting the temperature value of the temperature sensor and comparing the first reference temperature value Tref1 with the set washing course is continued. It is desirable to repeat periodically.

In addition, when the temperature drop is smaller than the second reference temperature value Tref2, the driving of the motor is completely stopped.

Here, when the temperature fall magnitude is smaller than the second reference temperature value Tref2, it is preferable to determine the abnormal operation state of the washing machine and to display the contents on the display window.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of the embodiments.                     

A preferred embodiment of the operation control method of the washing machine using the temperature sensor of the heat sink according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a method of controlling an operation of a washing machine according to the present invention, and FIG. 3 is a graph illustrating a temperature change of the IPM unit during the operation control of the washing machine according to the present invention.

When the thermistor configured in the IPM part of the washing machine is over 100 ℃, the temperature is lowered by lowering the motor operation rate to protect the IPM. In this case, the actual temperature drops normally because the ambient temperature is high when the heater or the like has occurred. I can't.

According to the present invention, if the temperature of the IPM unit is not lowered normally in the process of lowering the operating rate of the motor as shown in FIG. 3, the ambient temperature is determined to be high and the driving of the motor is completely stopped at the operating rate control step of the motor to protect the microcomputer. Control as much as possible.

As shown in FIG. 3, the driving rate of the motor is lowered to protect the IPM unit at the time (b) when the temperature of the IPM unit becomes the first reference temperature Tref1 while the washing machine is being driven.

Then, when the reference time (a) has elapsed (c) at the time of controlling the running rate of the motor (b), the temperature of the IPM unit is detected again, at which time the detected temperature falls sufficiently from the first reference temperature (Tref1). If the temperature decreases by more than the second reference temperature Tref2, it is determined as a normal operating state.                     

However, when the detected temperature is not sufficiently lowered from the first reference temperature Tref1 and the temperature lowering range is less than or equal to the second reference temperature Tref2, it is determined as an abnormal operation state.

The operation control method of the washing machine using the temperature sensor of the heat sink according to the present invention will be described in detail as follows.

As shown in Figure 2, when the washing machine is driven (S201), the washing proceeds to the set course.

As described above, the microcomputer reads the temperature of the temperature sensor configured in the heat sink of the IPM unit while the washing is performed.

The detected temperature value is compared with the set first reference temperature Tref1 value (S203).

If the detected temperature value does not exceed the first reference temperature Tref1 value, the temperature detection and comparison step is repeated periodically to proceed with the set washing.

When the detected temperature value exceeds the first reference temperature Tref1, the motor running rate (controlling the on / off time of the motor) is controlled to lower the temperature of the IPM part in order to protect the IPM part (S204).

Here, the first reference temperature (Tref1) value is set to prevent damage to the IPM portion, it is typically set to around 100 ℃ because the IPM portion is designed to ensure the operation up to about 120 ℃.

When the reference time (a) has elapsed from the time point of the motor operation rate control operation (a) to lower the temperature of the IPM unit (C) (S205), the temperature of the IPM unit is redetected again to calculate the temperature drop size. (S206)

When the calculated temperature fall magnitude is compared with the value of the second reference temperature Tref2 (S207), when the temperature fall magnitude is greater than the second reference temperature Tref2, it is determined that the operation control is normally performed. Proceed. (S208)

If the magnitude of the temperature drop is not greater than or equal to the value of the second reference temperature Tref2, it is determined that the operation control is abnormally performed, and the display window indicates that an error has occurred in the operation control (S209).

Here, the displayed content may include a display and a detailed error content of a part causing the abnormal operation, which is determined by sensing values of various sensors included in the washing machine.

In addition, such an over temperature condition directly affects the microcomputer unit, and determines that the microcomputer and the respective parts of the washing machine are not protected, and completely stops the driving of the heater.

The present invention protects the IPM unit by lowering the internal temperature by controlling the motor running rate when the internal temperature rises above a predetermined standard by using a temperature sensor for protecting the IPM unit.

When the temperature range lowered by the motor operation rate control is small, it is determined that the control is not normally performed, and the driving of the heater is completely stopped to protect each part of the washing machine such as a microcomputer.

 Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

The operation control method of the washing machine using the temperature sensor of the heat sink according to the present invention has the following effects.

First, when the temperature rises above a predetermined reference by using the detection value of the temperature sensor configured in the heat sink of the IPM unit, by controlling the motor running rate and lowering the temperature, excessive heating and damage of the IPM unit is suppressed.

Second, when the temperature drop is not normally performed by the motor operation rate control, the driving of the motor is completely stopped, thereby protecting the microcomputer and the oscillator.

Third, it is possible to protect the microcomputer and oscillator which abnormally operate at a lower temperature than the IPM unit, and to prevent abnormal washing control by completely stopping the driving of the motor when the temperature drop by the motor operation rate control is not made accurately. It has the effect of increasing the reliability of the device.

Claims (4)

There is a drive control of the washing machine using a temperature sensor configured in the heat sink of the IPM unit, Comparing the detected temperature value of the temperature sensor with a first reference temperature value Tref1 when the washing machine starts to drive; If the detected temperature value is large, controlling the motor running rate to lower the temperature; Calculating a temperature drop using a temperature value detected again after the reference time has elapsed, comparing the result with the second reference temperature value Tref2, and controlling the heater driving according to the result; Operation control method of a washing machine using a temperature sensor of the heat sink. The method of claim 1, wherein when the detected temperature value is smaller than the first reference temperature value Tref1, the temperature value of the temperature sensor is detected while continuing the set washing course, and the first reference temperature value Tref1 is detected. Method of controlling the operation of the washing machine using a temperature sensor of the heat sink portion, characterized in that for repeating the step of comparing periodically. The method of claim 1, wherein the driving of the motor is completely stopped when the magnitude of the temperature drop is smaller than the second reference temperature value Tref2. 4. The method of claim 3, wherein when the magnitude of the temperature drop is smaller than the second reference temperature value Tref2, it is determined that the washing machine is in an abnormal operation state and the contents are displayed on the display window. How to control the operation of the washing machine.

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