KR20010028950A - thermal sensor error judgement method of air-conditioner - Google Patents

Abstract

PURPOSE: A method for judging abnormal state of temperature sensor for air conditioner is provided accurately judge the state of the sensor by judging the presence of the sensor at the state where the air conditioner is turned off. CONSTITUTION: A method comprises a step(200) of judging whether an air conditioner is in operation; a step(202) of comparing the input value from a temperature sensor with a preset value if the air conditioner is not in operation; a step(206,208) of judging the temperature sensor as normal if the input value falls within the preset range, and as abnormal state if the input value exceeds the preset range; a step(210) of comparing the input value from the temperature sensor with a preset value if it is judged in the step(200) that the air conditioner is in operation; a step(220) of performing normal operation if the input value exists within the preset range; a step(220) of performing normal operation if the input value falls within the preset range; a step(216) of performing normal operation if the input value exceeds the preset range or the temperature sensor is judged as normal; and a step(218) of indicating abnormality of the temperature sensor and turning off the air conditioner if the input value exceeds the preset range and the temperature sensor is judged as abnormal.

Description

Thermal sensor error judgment method of air-conditioner

The present invention is a method for determining an abnormal state of an air conditioner, and more particularly, a temperature sensor of an air conditioner that can more accurately determine the state of a sensor by determining whether or not there is an abnormality of a sensor in a state in which the operation of the air conditioner is stopped. It is about how to judge the abnormal state.

All electronic devices, including air conditioners, are in a state of optimum operation. That is, the air conditioner determines the driving state based on the values detected by the various sensing means during operation, and then operates according to the state. In this way, the air conditioner performs the optimum operation or stops the operation if it is determined that the abnormal state. As such, the factors for determining the operating state of the air conditioner include an amount of operating current and input values of various temperature sensors.

Next, a method for determining an abnormal state of a temperature sensor of a conventional air conditioner will be described with reference to the accompanying drawings.

As shown in FIG. 1, the air conditioner generally includes an indoor unit 50 equipped with a heat exchanger 10 for discharging cold wind in the indoor side when the cold half operation mode is set. In addition, the air conditioner includes a compressor (20) for generating a high-temperature, high-pressure refrigerant, and an outdoor unit (60) consisting of a heat exchanger (30) for circulating the refrigerant generated from the compressor 20 to discharge the warm wind to the outside. The pipe 40 through which the refrigerant is circulated is connected between the indoor unit 50 and the outdoor unit 60.

In addition, the indoor unit 50 and the outdoor unit 60 have a built-in microcomputer (not shown) for controlling each component, and the microcomputer is also required for control between the indoor unit 50 and the outdoor unit 60 with each other. Send and receive data. In addition, in order to detect the state of the air conditioner during operation, the indoor unit 50 and the indoor unit 60 are equipped with various sensing means (not shown).

Then, the operation of the air conditioner having the above configuration will be briefly described.

First, when the user sets the temperature by using key input means (not shown) provided in the indoor unit 50, the set temperature is recognized by the microcomputer of the indoor unit 50. Then, the microcomputer transmits the set temperature to the outdoor unit 60 through communication means (not shown), and the microcomputer of the outdoor unit 60 performs the control to drive the compressor 20 by inputting the set temperature. Then, when the indoor unit 50 receives a signal that the indoor temperature has reached the set temperature, the microcomputer of the outdoor unit 60 outputs a signal to stop the operation of the compressor 20.

As the air conditioner operates as described above, a plurality of sensing means of the air conditioner input various values at this time to determine an operation state of the air conditioner, and then operate the air conditioner according to the determination state. One of the sensing means for determining the operation state of the air conditioner is to determine the operation state of the air conditioner by comparing the value detected during operation with the temperature sensor with a preset value.

When the input value of the temperature sensor is out of the range of the preset value during the operation of the air conditioner, the air conditioner determines that the temperature sensor is in an abnormal state and stops the operation.

Next, a method of determining an abnormal state of a temperature sensor of a conventional air conditioner will be described with reference to the operation flowchart of FIG. 2.

When the air conditioner is operated, the temperature sensor of the air conditioner senses the temperature during the operation. At this time, the temperature sensing unit located at the outdoor unit side includes an outdoor temperature pipe detector, an outdoor temperature detector, and a compressor dome temperature detector.

In this way, the detected temperature is compared with a preset temperature value of the air conditioner (step 102), and when the input value of the temperature sensor is within the range of the preset temperature value, the air conditioner determines that it is in a normal state and continues operation. (Step 104).

However, if the input value is out of the preset range, the air conditioner determines that the temperature sensor is abnormal and displays the abnormality accordingly (step 106). Then, the air conditioner stops operation.

As described above, when a value input to a temperature sensor during operation is out of a predetermined range during operation, the air conditioner determines that this is a sensor error and stops operation. Therefore, even when the air conditioner does not have an abnormality in the temperature sensor, when the input value of the temperature sensor is out of a predetermined range, there is a problem that the operation is erroneously determined to stop the sensor.

In general, an air conditioner may cause a value detected by a temperature sensor to be out of a preset range according to an operating state. Therefore, at this time, the temperature sensor is not an abnormal state, but detects a value outside the preset range. However, since the conventional air conditioner is configured to exclude such a state, even if it is not a sensor error, the sensor error is displayed and the operation is stopped.

Therefore, an object of the present invention is to determine the abnormal state of the temperature sensor of the air conditioner that can accurately determine whether the sensor abnormality regardless of the operating state of the air conditioner by determining the state of the sensor in the state in which the air conditioner is stopped. In providing.

Another object of the present invention is an abnormal state of the temperature sensor of the air conditioner to improve the reliability of the air conditioner by operating normally if the sensor is not abnormal even if the value input to the temperature sensor during operation of the air conditioner is out of the predetermined range To provide a method of judgment.

1 is a schematic configuration diagram of an air conditioner.

2 is a flowchart illustrating a method of determining an abnormal state of a temperature sensor of a conventional air conditioner.

3 is a flowchart illustrating a method for determining an abnormal state of a temperature sensor of an air conditioner according to the present invention.

4 is a graph according to the present invention.

* Description of the symbols for the main parts of the drawings *

10,30: heat exchanger 20: compressor

40: piping 50: indoor unit

60: outdoor unit

Method for determining the abnormal state of the temperature sensor of the air conditioner according to the present invention for achieving the above object is to determine the operation stop state of the air conditioner, and compares the input value of the temperature sensor with the preset value in the stop state And determining that the temperature sensor is in a normal state if the input value is within a preset range, and determining that the temperature sensor is in an abnormal state.

In this way, if the state of the temperature sensor is determined first, next, comparing the input value of the temperature sensor during operation of the air conditioner with a preset value; if the input value is within a preset range, performing normal operation; If the value is out of the preset range or the temperature sensor is determined to be normal, perform the normal operation; if the input value is out of the preset range and the temperature sensor is judged to be abnormal, display the abnormality of the temperature sensor and operate. Characterized in that it comprises a step of stopping.

The present invention operates normally when the temperature sensor does not have an abnormality even when the value input to the temperature sensor is outside the preset temperature range by operating as described above. That is, in order to prevent the abnormality of the temperature sensor from being affected by the operating state of the air conditioner, the abnormal state is examined while the operation is stopped. Therefore, it is possible to accurately determine the abnormality of the temperature sensor.

In other words, the condition of the temperature sensor is judged separately from the operating condition of the air conditioner, and an abnormality is displayed when the abnormal condition is judged.If the temperature sensor is in a normal state, it is normal even if the detected temperature value is out of the preset range. Let it drive

Hereinafter, a method of determining an abnormal state of a temperature sensor of an air conditioner according to the present invention will be described with reference to the operation flowchart shown in FIG. 3.

First of all, it is judged whether the temperature sensor is abnormal in the air conditioner stop mode. That is, based on the data generated during normal operation of the air conditioner, the input value of the temperature sensor is compared with the preset value (step 202). In this way, in determining the state of the temperature sensor, it is possible to accurately determine the abnormality of the temperature sensor separately from the operation state of the air conditioner.

If the temperature sensed by the temperature sensor in the above state is within the range of the preset temperature, it is determined that the temperature sensor is in a normal state (step 206). However, if the sensed temperature is outside the preset range, the temperature sensor is determined to be in an abnormal state (step 208).

When the state of the temperature sensor is judged in this way, the air conditioner operates.

As the air conditioner operates, the temperature sensor detects the corresponding temperature. At this time, if the detected temperature value is within the range of the preset temperature value of the air conditioner, the air conditioner is determined to be in a normal state and continues operation normally (step 220).

However, if the value detected by the temperature sensor during the operation is out of the predetermined range, the air conditioner then considers the state of the temperature sensor again (step 214). That is, after the operation of the air conditioner is stopped, the subsequent operation is determined according to the determined state of the temperature sensor.

Then, when the temperature sensor is judged to be in a normal state, if the input value of the temperature sensor is out of a preset range, the air conditioner is normally operated since the temperature sensor is not in an abnormal state (step 216). That is, the above state is only a case where the temperature sensor detects a value outside the preset range according to the operating state of the air conditioner.

On the other hand, if the temperature sensor judged to be abnormal when the operation is stopped, the air conditioner displays the temperature sensor abnormality and operation is stopped (step 218).

The present invention operating as described above will be described in more detail with reference to the graph of FIG. 4.

As shown in FIG. 4, the temperature sensor operates normally only within a predetermined range, and when the temperature sensor is out of the range, the temperature sensor operates abnormally. That is, if the input value of the temperature sensor is between T1 and T2 during operation of the air conditioner, the sensor is in a normal state. And, if the predetermined range of the air conditioner is a ~ a 'out of this range, first determine that the air conditioner is in an abnormal state.

For example, if the input value at that time has a value of b, it is located within the normal operating range of the sensor, and thus is not caused by a sensor error, so that the air conditioner operates normally. However, if the input value of the temperature sensor is d, not only is it out of the preset range of the air conditioner of the sensor but also outside the normal operating range of the temperature sensor, an abnormal temperature sensor is displayed and the air conditioner stops operation.

The present invention operating as described above determines whether there is an abnormality of the sensor in the state in which the air conditioner is stopped. In this way, by determining the state of the sensor independently of the operation state of the air conditioner, it is possible to more accurately determine the abnormality of the sensor.

In addition, according to the present invention, even if the value detected by the temperature sensor during the operation of the air conditioner is out of the preset range, the operation of the sensor is determined according to the state of the sensor again. Therefore, it is possible to solve the problem that the display of the sensor abnormality is only displayed because the operating state is different from the normal state rather than the abnormal state of the sensor.

Temperature sensor abnormal state determination method of the air conditioner according to the present invention configured as described above has the advantage that it is possible to determine the state of the temperature sensor more accurately by determining the presence or absence of the abnormal condition in the operation of the air conditioner. In addition, even if the value input to the temperature sensor is out of the predetermined range of the air conditioner, if the temperature sensor is in a normal state, the sensor abnormality is not displayed and is operated, thereby improving the reliability of the air conditioner.

Claims (2)

Determining an operation stop state of the air conditioner; Comparing the input value of the temperature sensor with a preset value in the stop state; And determining that the temperature sensor is in a normal state if the input value is within a preset range, and determining that the temperature sensor is in an abnormal state. The method of claim 1 wherein: After determining the state of the temperature sensor, comparing the input value of the temperature sensor with a preset value during operation of the air conditioner; Performing normal operation if the input value is within a preset range; Performing normal operation when the input value is out of a preset range or when the temperature sensor is determined to be in a normal state; And displaying an abnormality of the temperature sensor and stopping the operation when the input value is outside the preset range and the temperature sensor is determined to be in an abnormal state.