KR19990074313A - Operation control method of inverter type air conditioner - Google Patents

Abstract

The operation control method of the disclosed air conditioner relates to an operation control method of an inverter type air conditioner to variably control the operation frequency of a compressor. According to the present invention, the rising or falling speed of the compressor operating frequency is variably adjusted according to the current level detected by the current detection sensor, but when the current level detected by the current detection sensor is not equal to or greater than a preset reference current level. The compressor operation frequency is increased according to the normal speed, and when the current level detected by the current detection sensor is greater than or equal to the reference current level, the compressor operation frequency is adjusted to increase according to the speed reduced to less than the normal speed. Therefore, by variably controlling the operating frequency of the compressor in accordance with the detected current level, its operating efficiency is increased, and it is also possible to prevent overload of the compressor and burnout of parts of other electrical appliances.

Description

Operation control method of inverter type air conditioner

The present invention relates to a control method of an air conditioner, and more particularly, to an operation control method of an inverter type air conditioner to variably control the operation frequency of a compressor.

In general, an air conditioner is a device used for cooling or heating indoors by using a refrigerant cycle. In general, a liquid maintains a constant pressure and vaporizes at an elevated temperature. It has a property of liquefying when lowered.

Therefore, when the liquid vaporizes, it absorbs the surrounding heat, and when the liquid is liquefied, the heat is released. The refrigerant cycle described above is composed of a compressor, an outdoor heat exchanger, a capillary tube, and an indoor heat exchanger, and typically drives a compressor to circulate the refrigerant to the respective parts.

In recent years, inverter type air conditioners that convert a cooling capability of an air conditioner by controlling a rotational frequency of a compressor by installing a converter and an inverter in an air conditioner have been used. Here, the above-mentioned converter receives a commercial power source (AC 220V / 60 ㎐) and converts it to direct current to rectify the commercial frequency from direct current (DC), and the inverter converts the direct current into voltage / frequency of the desired alternating current. Say the device.

1 is a control block diagram of such a general inverter type air conditioner. According to this, the indoor unit 10 is provided with an indoor temperature sensor 11, an indoor fan motor 12, a microcomputer 13, a remote control receiver 14, a data communication unit 16, and a remote controller 15. The remote controller 15 inputs a user's command and transmits the command to the remote controller receiver 14, and the remote controller receiver 14 applies the input signal to the microcomputer 13. The microcomputer 13 drives loads of the indoor fan motor 12, the outdoor fan motor 23, the compressor 29, and the like, according to this signal.

Here, the outdoor fan motor 23 and the compressor 29 are provided on the outdoor unit 20 side, and thus the microcomputer 13 transmits the control signal to the outdoor unit 20 side through the data communication unit 16. . In addition, the indoor temperature sensor 11 detects the temperature of the room and applies it to the microcomputer 13, and thus the microcomputer 13 variably adjusts the cooling / heating operation state according to the detected room temperature.

Meanwhile, an outdoor temperature sensor 21, a current detection sensor 22, an outdoor fan motor 23, a microcomputer 24, and a data communication unit 25 are provided on the outdoor unit 20 side. The microcomputer 24 inputs a signal of the indoor unit 10 received from the data communication unit 25, thereby driving the outdoor fan motor 23 and the compressor 29. Here, the outdoor temperature sensor 21 detects the outdoor temperature, the current detection sensor 22 detects the current according to the driving of the compressor 29 and applies it to the microcomputer 24, and accordingly, the microcomputer 24 is the above-mentioned. The overload state of the compressor 29 is determined according to the detected temperature and current change.

In addition, a converter 26 for receiving a commercial power (AC) and converting it into a direct current to rectify from a commercial frequency to a direct current (DC) is provided, and an inverter 27 for converting the direct current into a voltage / frequency of a desired alternating current is provided. The output frequency of the inverter 27 is controlled by the microcomputer 24. In addition, the driving unit 28 drives the compressor 29 by using an alternating current frequency converted by the inverter 27.

2 is a flowchart illustrating a method of controlling a conventional inverter type air conditioner. Referring to this, the operation of the conventional inverter type air conditioner will be described in detail as follows.

First, when the user operates the remote controller 15 for cooling or heating operation, the remote controller receiver 14 of the indoor unit 10 receives the operation signal and applies it to the microcomputer 13. Therefore, when the microcomputer 13 of the indoor unit 10 determines that the operation signal is an operation start command, the microcomputer 13 drives the indoor fan motor 12 and the outdoor fan motor 23 and the compressor (installed in the outdoor unit 20). A control signal for driving 29 is applied to the data communication unit 16. In addition, the microcomputer 24 of the outdoor unit 20 inputs a signal of the indoor unit 10 side received from the data communication unit 25 and accordingly drives the outdoor fan motor 23 and the compressor 29 to cool or heat. The operation is performed.

In this state in which the compressor 29 is operated, the microcomputer 24 of the outdoor unit 20 raises or lowers the operating frequency of the compressor 29 from the reference frequency according to a preset period (S101 to S104).

That is, the compressor 29 of the inverter type air conditioner as described above is changed by the microcomputer 24 to increase or decrease its operating frequency, thereby varying the cooling or heating capacity of the air conditioner. The commercial power source AC is received and converted into direct current to rectify the commercial frequency into direct current (DC), and the inverter 27 converts the direct current into a voltage / frequency of a desired alternating current and applies it to the driving unit 28.

At this time, the driving unit 28 controls the operating frequency of the compressor 29 according to the output frequency of the inverter 27 by the output frequency is controlled by the microcomputer 24, and also set in advance in the microcomputer 24 The operating frequency of the compressor 29 is increased or decreased according to the frequency rising or falling cycle, and the speed thereof is maintained at a predetermined speed preset by the microcomputer 24.

Thereafter, the microcomputer 24 detects a current flowing in the load through the current detection sensor 22 while the compressor operation frequency is increased by the above process, and compares / determines whether the detected current is greater than or equal to the overload current. Therefore, when the detected current is not greater than the overload current, the current state of the compressor 29 is maintained, and when the detected current is greater than the overload current, the compressor 29 is stopped by stopping the operation of the compressor 29. The electrical equipment is protected from overload (S105 to S108).

However, in the operation control method of the conventional inverter type air conditioner, the frequency rising speed in the overload operation of the compressor is faster than the frequency rising speed in the normal operation, and the current level is also rapidly rising so that the current increases in a short time. Reaching the trip region (trip), there is a problem that the operating efficiency is lowered accordingly.

In addition, the compressor is stopped only when the current level rises and the overload current is reached. Thus, even though the current tripping range is reached, the operating frequency of the compressor continues to increase until the overload current is reached. And other problems in which component burnout could occur.

Accordingly, an object of the present invention devised to solve such a problem is to provide an operation control method of an inverter type air conditioner to increase the operation efficiency by variably controlling the operation frequency rising speed of the compressor.

1 is a control block diagram showing a typical inverter type air conditioner,

2 is a flowchart illustrating a driving control method of a conventional inverter type air conditioner;

3 is a flow chart showing a preferred embodiment of the operation control method of the inverter type air conditioner according to the present invention;

4 is a view showing a current change state according to the rise or fall cycle of the compressor operating frequency of the present invention.

Explanation of symbols on the main parts of the drawings

20: outdoor unit 22: current detection sensor

24: microcomputer 26: converter

27: inverter 28: drive unit

29: compressor

A characteristic of the operation control method of the inverter type air conditioner according to the present invention for achieving the above object is, in the operation control method of the inverter type air conditioner in which the operating frequency of the compressor is controlled by the control of the microcomputer, current detection The rising or falling speed of the compressor operating frequency is variably adjusted according to the current level detected by the sensor.

When the current level detected by the current detection sensor is not equal to or greater than a preset reference current level, the compressor operating frequency is increased according to the normal speed, and the current level detected by the current detection sensor is increased by the reference current level. In case of abnormality, the compressor operation frequency is adjusted to be increased according to the speed reduced to the normal speed or less, and the current increase rate of a predetermined section is detected. It is desirable to decelerate with.

In addition, when the current level detected by the current detection sensor is more than the overload current to stop the operation of the compressor.

Therefore, by varying the operating frequency of the compressor in accordance with the detected current level, its operating efficiency is increased, and it is also possible to prevent overload of the compressor and burnout of parts of other electrical appliances.

Hereinafter, a preferred embodiment of the operation control method of the inverter type air conditioner according to the present invention will be described in detail with reference to the accompanying drawings, the same components as in the prior art will be described with the same reference numerals.

3 is a flow chart showing a preferred embodiment of the operation control method of the inverter type air conditioner according to the present invention, Figure 4 is a view showing a current change state according to the rise or fall cycle of the compressor operating frequency of the present invention.

As shown in the drawing, each of the indoor and outdoor microcomputers 13 and 24 performs a cooling or heating operation by driving the indoor fan motor 12, the outdoor fan motor 23, and the compressor 29 by a user's operation. As described above in detail with reference to FIG. 1, the microcomputer 24 of the outdoor unit 20 increases the operating frequency of the compressor 29 from a reference frequency according to a preset period while the compressor 29 is operated. By lowering, the cooling or heating capability is varied (S201 to S204).

That is, the compressor 29 of the inverter type air conditioner as described above, the operating frequency is increased or decreased by the microcomputer 24, where the converter 26 receives a commercial power (AC) to convert to a direct current The rectifier is rectified to direct current (DC) at a commercial frequency, and the inverter 27 converts the direct current into a voltage / frequency of a desired alternating current and applies it to the drive unit 28. At this time, the driving unit 28 controls the operating frequency of the compressor 29 according to the output frequency of the inverter 27 by the output frequency is controlled by the microcomputer 24, and also set in advance in the microcomputer 24 The operating frequency of the compressor 29 is increased or decreased according to the frequency rising or falling cycle, and the speed thereof is maintained at a predetermined speed preset by the microcomputer 24.

In this state, the microcomputer 24 variably adjusts the speed when the compressor operation frequency increases or decreases, in particular, when the compressor operation frequency increases according to the current level detected by the current detection sensor 22. That is, when the current level detected by the current detection sensor 22 is not equal to or greater than a preset reference current level, the compressor operating frequency is increased according to the normal speed, and the current detected by the current detection sensor 22. When the level is equal to or greater than the reference current level, the compressor operating frequency is adjusted to increase in accordance with the speed reduced to the normal speed (S205 to S211).

Here, when the current level detected by the current detection sensor 22 is equal to or greater than the reference current level, a current increase rate of a predetermined section is detected. When the current increase rate is equal to or more than a predetermined value, the rising speed of the compressor operating frequency is normal. Slow down below speed.

That is, as shown in FIG. 4, in the state where the current according to the compressor operating frequency is increased above the reference current, that is, included in the current management region, the microcomputer 24 calculates the slope according to the current rising rate in the A section. After that, the slope of the current rise rate in the section B is calculated. Thereafter, the difference between the inclination value of the section B and the inclination value of the section A is obtained, and when the difference between the inclination values is greater than or equal to a predetermined predetermined inclination value, it is determined that the current rises (overload state). Therefore, by slowing down the rising speed of the compressor operating frequency to have a gentle slope as in the C section, a current tripping phenomenon can be prevented from occurring and at the same time, the operating efficiency can be increased.

Thereafter, in the state where the compressor operating frequency is increased by the above process, the microcomputer 24 compares / determines whether the current detected through the current detection sensor 22 is greater than or equal to the overload current. Therefore, when the detected current is not greater than the overload current, the current state of the compressor 29 is maintained, and when the detected current is greater than the overload current, the compressor 29 is stopped by stopping the operation of the compressor 29. The electrical equipment is protected from overload (S212 to S214).

As described above, according to the compressor operation control method of the inverter type air conditioner according to the present invention, by controlling the operating frequency of the compressor in accordance with the detected current level to prevent the current tripping phenomenon in the sudden rise of the current, and The driving efficiency is increased.

In addition, there is another effect that prevents the overload of the compressor and burnout of parts of other electrical appliances.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (4)

In the operation control method of the inverter type air conditioner in which the operating frequency of the compressor is controlled by the control of the microcomputer, And controlling the rising or falling speed of the compressor operation frequency in accordance with the current level detected by the current detection sensor. The method according to claim 1, wherein when the current level detected by the current detection sensor is not equal to or higher than a preset reference current level, the compressor operating frequency is increased according to the normal speed, and the current level detected by the current detection sensor is increased. When the reference current level or more, the operation control method of the inverter type air conditioner, characterized in that for adjusting the compressor operation frequency to increase in accordance with the speed reduced to less than normal speed. The method of claim 2, wherein the current rising rate of a predetermined section is detected when the current level detected by the current detection sensor is equal to or greater than the reference current level. Operation control method of the inverter type air conditioner, characterized in that to decelerate below the normal speed. 4. The operation control method according to claim 1, 2 or 3, wherein the operation of the compressor is stopped when the current level detected by the current detection sensor is equal to or greater than an overload current.