KR20010036768A - compressor control method of air-conditioner - Google Patents

Abstract

PURPOSE: A method is provided to achieve an optimum operation of air conditioner by allowing operation of the compressor to be changed in real time in accordance with the operation state of the air conditioner. CONSTITUTION: A method comprises a step(200-220) of judging whether the frequency characteristic is preset in accordance with the input voltage, setting frequency/voltage characteristics for the compressor in accordance with the input voltage if the frequency characteristic is not preset, and driving the compressor in accordance with thus-set frequency/voltage characteristics; a step(230) of driving the compressor in accordance with the preset frequency characteristic if the frequency characteristic is preset, and checking the operation state; a step(240) of comparing the data obtained by checking the operation state with the data preset in accordance with the operation characteristic; a step(250) of driving the compressor in accordance with the preset frequency/voltage characteristic if the data is the same as the preset data; and a step(260) of changing frequency/voltage characteristic of the compressor to become similar to the preset data and operating the compressor in accordance with the changed frequency/voltage characteristic, if the data is different from the preset data.

Description

Compressor control method of air conditioner

The present invention relates to a compressor control method of an air conditioner, and more particularly, to a compressor control method of an air conditioner capable of changing the driving of a compressor in real time according to an operating state of an air conditioner.

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, the indoor unit 50 and the indoor unit 60 are equipped with various sensing means (not shown) in order to detect the operation state of the air conditioner.

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. At this time, the voltage input to the compressor 20 has a frequency characteristic for driving the compressor 20 accordingly. Therefore, when the air conditioner is operated, the compressor 20 is driven by a frequency / voltage characteristic preset according to the input voltage. 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. Therefore, since the compressor 20 stops driving, the air conditioner stops driving.

As described above, the conventional compressor senses an input voltage during operation and is driven by a predetermined frequency / voltage characteristic accordingly. Here, the frequency and voltage for driving the compressor have different values depending on the input voltage. This is a value in which the compressor is stably driven for each input voltage in the stage of developing the air conditioner. That is, the conventional air conditioner defines the input voltage in several steps, and accordingly sets the frequency / voltage at which the compressor is stably driven, and detects the input voltage when the air conditioner is operated, and the compressor is driven at the corresponding frequency and voltage. It was made.

The frequency / voltage characteristic according to the voltage level for driving the compressor is stored in a memory inside the microcomputer to drive the compressor based on the stored value according to the operation of the air conditioner.

Next, a compressor control method of the conventional air conditioner will be described with reference to the graph of FIG. 2.

As shown in FIG. 2, in the conventional compressor, an input voltage is divided into several steps, and a frequency and a voltage value at which the compressor is driven according to the input voltage are preset. For example, if voltage 1 is input to the compressor during air conditioner operation, the compressor is driven when the frequency a and the voltage a 'are present. When the voltage 2 is input, the compressor is driven at the b frequency and the b 'voltage.

As described above, the input voltage is sensed and stored during operation of the conventional air conditioner, and the compressor is operated by setting the frequency / voltage characteristic value of the compressor differently according to the input voltage. In addition, by finding a stable point for each input voltage, the frequency / voltage characteristic is stored in several steps according to a preset voltage range, and when the input voltage is a predetermined specific region, the compressor is driven based on the data of the region.

In this way, if the input voltage changes when the compressor is in operation using the set data, the operation of the air conditioner is stopped and restarted. Then, upon re-operation, the input voltage was rechecked to drive the compressor with the frequency / voltage characteristics corresponding to the voltage range.

As such, the conventional air conditioner cannot change the frequency / voltage characteristics of driving the compressor during operation when a change in input voltage occurs during operation. Therefore, in this case, the air conditioner stopped the operation and then driven the compressor with the frequency / voltage characteristics according to the changed input voltage during the subsequent operation.

The reason why the conventional air conditioner does not perform proper operation according to the changed operating state is that it does not consider various factors that change depending on the operation. That is, in the related art, the driving of the compressor is controlled using only the input power during operation. However, in order to operate the air conditioner optimally, in addition to the input power, the operating current, the compressor discharge temperature, the indoor and outdoor piping temperature, and the like must be considered. However, conventional air conditioners do not consider the influence of these factors. Therefore, the conventional air conditioner has not been properly made according to the change in the operating state.

When the air conditioner is installed in the air conditioner, the frequency / voltage characteristic at which the compressor is driven is different from the preset value. Therefore, in such a case, there is a problem that the air conditioner does not operate normally because it cannot be adjusted.

In addition, since the driving state is changed only by the input voltage, the compressor is excessively driven when the input voltage is unstable. Therefore, the conventional air conditioner lacked stability in operation.

Accordingly, an object of the present invention is to provide a compressor control method of an air conditioner in which the operation of the compressor can be changed in real time according to an operating state that changes as the air conditioner is operated.

Another object of the present invention is to provide a method for controlling a compressor of an air conditioner that can perform an appropriate operation according to an operating state by considering various states when operating an air conditioner.

1 is a schematic configuration diagram of an air conditioner,

2 is a graph of the frequency / voltage characteristics of a conventional compressor,

3 is a schematic configuration diagram of an outdoor unit;

4 is an operation flowchart of a compressor control method of an air conditioner according to the present invention;

5 is a graph of the frequency / voltage characteristics of the compressor according to the present invention.

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

10,30: heat exchanger 20,120: compressor

40: piping 50: indoor unit

60: outdoor unit 100: microcomputer

110: voltage detection unit 113: compressor driving control unit

117: compressor driving unit 130: outdoor piping temperature detection unit

140: compressor discharge temperature detection unit 150: compressor operating current detection unit

Compressor control method of the air conditioner according to the present invention for achieving the above object is the step of driving the compressor according to the frequency characteristics according to the input voltage during the initial operation of the air conditioner, when the frequency characteristic according to the input voltage is not set Setting a frequency / voltage characteristic to drive the compressor accordingly, comparing the data sensed by various sensing means when the compressor is driven with the preset frequency characteristic to preset data, and if the two data are the same, And driving the compressor with a set frequency / voltage characteristic and changing and driving the frequency / voltage characteristic of the compressor to approach the preset data based on the sensed data when the two data are different.

That is, the present invention recognizes the change in the operating state in consideration of the values detected through the various sensing means while the air conditioner is operating, and performs the optimum operation by controlling the driving of the compressor in real time based on the data.

In general, as the air conditioner operates, the state changes to a state different from the initial operation. In addition, the operation of the compressor according to the input voltage is a predetermined value at the stage of developing the air conditioner and does not consider the influence of a specific environment. That is, the change according to the installation condition of the air conditioner was not considered. Therefore, the present invention allows to consider the change in the operating state according to the environment in which the air conditioner is set. To this end, if the frequency characteristic according to the input voltage is not determined at the initial operation of the air conditioner, the frequency / voltage characteristic according to the input voltage is first set so that the compressor is driven accordingly.

In addition, the present invention allows the air conditioner to properly operate the compressor according to the change in the operating state. To this end, the initial operation of the air conditioner drives the compressor with a predetermined frequency / voltage characteristic according to the input voltage, and then changes the driving data of the compressor in real time based on the compressor's operating current and the compressor discharge temperature of the refrigerant. To drive the compressor.

Hereinafter, a compressor control method of an air conditioner according to the present invention will be described with reference to the accompanying drawings.

3 is a schematic configuration diagram of an outdoor unit, with reference to the drawings, first, a brief description of a compressor control method of an air conditioner according to the present invention.

As shown, the outdoor unit is a compressor 120 that is driven to reach a set temperature when the air conditioner is operated, a compressor driving unit 117 that supplies power for driving the compressor 120, and the compressor. Compressor drive control unit 113 for controlling the compressor drive unit 117 so that the input power of the appropriate size, and a microcomputer 100 for outputting a signal for driving the compressor 120 is configured. The compressor driver 117 includes a plurality of power elements (not shown), and the voltage input when the air conditioner is operated is sensed by the voltage detector 110.

In addition, the outdoor unit is equipped with a detection means (130, 140, 150) for detecting a change in accordance with the operation of the compressor 120, the outdoor pipe temperature detection unit 130 for detecting the outdoor pipe temperature, and the discharge temperature according to the drive of the compressor 120 Compressor discharge temperature detection unit 140 for detecting, and a compressor operating current detection unit 150 for detecting the operating current of the compressor 120 is configured.

Next, the operation of this configuration will be described briefly.

When power is input to the air conditioner, the AC power is converted into a DC voltage. The air conditioner then operates by using the converted voltage. In this case, the voltage is sensed by the voltage detector 110. Then, the microcomputer 100 outputs a frequency / voltage characteristic for driving the compressor 120 based on the sensed input voltage. The characteristics are preset according to the input voltage.

The compressor 120 is driven to the above value, and then the change in the air conditioner over time is detected by the plurality of sensing means 130, 140, and 150. That is, according to the driving of the compressor 120, the microcomputer 100 recognizes the value detected through the sensing means 130, 140, and 150 again, and then outputs a signal for re-controlling the driving of the compressor 120 in consideration of this. do. At this time, according to the operation of the compressor 120, the operating current of the compressor 120 is the compressor operating current detector 140, the compressor discharge temperature of the refrigerant is the compressor discharge temperature detector 140, the outdoor piping temperature is the outdoor pipe temperature detector 130 Is detected.

In this way, the driving state is sensed when the compressor 120 is driven, and accordingly the frequency / voltage characteristic is reset so that the compressor 140 is driven with the frequency / voltage characteristic.

4 is an operation flowchart of a compressor control method of the air conditioner according to the present invention.

When the air conditioner starts to operate, first, it detects an input voltage input to the compressor 120 during initial operation. In this case, if the frequency characteristic according to the detected input voltage is not preset, the frequency / voltage characteristic of the compressor according to the input voltage is first set, and then the compressor is driven with the frequency / voltage characteristic thus set (step 220).

However, if the frequency characteristic according to the sensed input voltage is preset, the compressor 120 is driven according to the set frequency characteristic and the operation state is checked according to the set frequency characteristic (step 230). That is, by using a variety of sensing means to detect the operating current, compressor discharge temperature, indoor piping temperature. Thereafter, the detected data in step 230 is compared with the preset data according to the driving characteristics (step 240). In this way, if the data is the same as the preset data, the compressor is driven with the preset frequency / voltage characteristic (step 250).

However, if the detected data according to the current operating state is different from the preset value, the frequency / voltage characteristic of the compressor is changed to approach this value based on the preset value, thereby driving the compressor 120. (Step 260). That is, the frequency and voltage characteristics of the compressor 120 are adjusted to adjust the data so that the data is close to the preset data in consideration of the detected operating current, the compressor discharge temperature, and the indoor piping temperature. In this way, the compressor is then driven with the adjusted frequency / voltage characteristic (step 260). According to the present invention, the driving of the compressor 120 may be changed in real time according to an operating state.

The compressor control method of the present invention operated as described above will be described in detail with reference to the graph of FIG. 5.

When the air conditioner is operated, several input voltages are input to the compressor 120 according to the set mode. Here, first, only one of the input voltages are considered and the frequency / voltage characteristics change accordingly will be described.

When the air conditioner is operated, the compressor 120 is driven at a preset frequency / voltage characteristic according to the input voltage input to the compressor 120. The frequency / voltage characteristic according to the input voltage corresponds to the A graph. The frequency / voltage characteristic according to the input voltage of the compressor 120 is stored in the microcomputer 100 as a result obtained through several experiments in the development stage of the air conditioner. When the compressor 120 is driven by the frequency / voltage characteristic, a change in operation state is generated by various situations of the air conditioner.

In this case, a change of data for driving the compressor 120 is required. In this way, when the data is changed, the changed data is close to a preset frequency / voltage characteristic. That is, the relationship between the frequency and the voltage according to the input voltage is equal to the preset value. That is, the frequency / voltage characteristic of the compressor 120 is changed in consideration of the change in the operating state based on the preset frequency / voltage characteristic. Therefore, the frequency / voltage characteristic of the changed compressor 120 in consideration of the operating state is represented by B. That is, the changed frequency / characteristic has the same slope as the preset frequency / voltage characteristic and only the driving point is set differently.

As described above, the compressor control method of the air conditioner according to the present invention considers a change in operating state when the air conditioner is operating, and thus changes the frequency / voltage characteristics of the compressor so that the compressor can be properly driven. In other words, the compressor operates with the frequency / voltage characteristics corresponding to the input voltage during the initial operation of the air conditioner, and then detects the operation state and changes the frequency / voltage characteristics of the compressor accordingly, thereby driving the compressor in real time. Controlled.

In addition, the air conditioner operation state of the air conditioner is changed according to the state in which it is installed or the length of the connecting pipe, etc. The present invention provides the frequency / voltage according to the input voltage even when the operation of the air conditioner is not set according to the input voltage. The property can be reset.

According to the present invention configured as described above, since the compressor may be changed in real time according to the operating state when the air conditioner is operated, the compressor is driven in consideration of the operating state of the air conditioner so that the air conditioner may be more properly operated. In addition, the present invention has the advantage that the air conditioner can be stably operated because the compressor is not driven forcibly when the input voltage is unstable because the driving state is changed in real time by sensing the voltage input to the compressor during operation.

In addition, the present invention can reset the value even if the frequency / voltage characteristics of the compressor according to the input voltage during the initial operation of the air conditioner has the advantage that the optimum operation according to the installation state of the air conditioner have.

Claims (3)

Driving the compressor according to a frequency characteristic according to an input voltage during initial operation of the air conditioner; Setting a frequency / voltage characteristic when the frequency characteristic is not set according to the input voltage and driving the compressor accordingly; Comparing data sensed by various sensing means when the compressor is driven with the predetermined frequency characteristic with preset data; Driving a compressor with a predetermined frequency / voltage characteristic when the two data are the same; And changing and driving the frequency / voltage characteristics of the compressor to approach the preset data based on the detected data when the two data are different from each other. The method of claim 1 wherein: Compressor control method of the air conditioner, characterized in that to consider the operating current, the compressor discharge temperature, the indoor piping temperature of the compressor to change the frequency / voltage characteristics of the compressor. The method of claim 1 wherein: Compressor control method of the air conditioner, characterized in that when changing the frequency / voltage characteristics of the compressor has the same proportional relationship with the preset frequency / voltage characteristics.