KR100282354B1 - Method for prevent liquid refrigerant compress of the lnver ter Air Conditioner - Google Patents

Abstract

In the liquid refrigerant compression prevention method of the inverter air conditioner, in the air conditioner equipped with a compressor, the step of dividing the outdoor temperature in multiple stages, the lower the temperature of the separated outdoor temperature, the higher the frequency rising speed up to a predetermined minimum operating frequency Reducing a predetermined level from the frequency rising speed in the normal operation, and entering the normal operation section after the compressor operation for a preset set time when the frequency rising speed reaches the minimum operating frequency. By adjusting the operating speed of the compressor according to the conditions, it is possible to prevent damage to the compressor in advance and at the same time improve the product life and reliability.

Description

Method for prevent liquid refrigerant compress of the lnver ter Air Conditioner

The present invention relates to an air conditioner, and more particularly, to a method for preventing liquid refrigerant compression of an inverter air conditioner.

In general, a device that converts electrical alternating current into direct current or inversely converts direct current into alternating current is called a converter or an inverter, and an air conditioner using the same is called an inverter air conditioner.

Hereinafter, with reference to the accompanying drawings as follows.

1 is a view showing a heating cycle of the inverter air conditioner according to the prior art.

Referring to FIG. 1, the heating cycle of the inverter air conditioner is formed of a compressor 1, an indoor heat exchanger 4, a capillary tube 3, an outdoor heat exchanger 2, a compressor 1, and an indoor fan 5. ) Is driven by the indoor fan motor (6) so that the indoor air is heat exchanged in the indoor heat exchanger (4) and then supplied to the room again, and the outdoor fan (7) is driven by the outdoor fan motor (8), The outdoor air is heat-exchanged in the outdoor heat exchanger (2) and then supplied to the outdoor again.

That is, in the outdoor heat exchanger, the gas refrigerant is compressed by the compressor (1) to become a high temperature and high pressure refrigerant even at room temperature. It becomes a liquid refrigerant.

The liquefied room temperature and high pressure liquid refrigerant becomes a low pressure and low temperature liquid refrigerant that is easily evaporated between the capillary tubes 3.

The low temperature and low pressure liquid refrigerant passing through the capillary tube 3 is sent to the outdoor heat exchanger to take heat from the outside and evaporate to become a low temperature low pressure gas refrigerant.

As described above, the compressor 1 functions to suck the refrigerant in the outdoor heat exchanger 4 to lower the refrigerant pressure in the outdoor heat exchanger 2 and to compress and discharge the refrigerant.

As such, the gaseous refrigerant vaporized in the outdoor heat exchanger 4 is sucked into the compressor 1 and is located above the compressor 1, and the compressor lubricating oil is located below the compressor 1, and the compression operation of the compressor 1 is performed. By this, the gaseous refrigerant located above the compressor 1 is compressed and discharged into the gaseous refrigerant of high temperature and high pressure.

However, when the outdoor temperature is low, the gaseous refrigerant evaporated in the outdoor heat exchanger 2 becomes a liquid refrigerant by the low outdoor temperature when time passes by stopping the heating operation.

In this state, when the compressor is operated at a normal operating frequency for heating operation, the liquid refrigerant is sucked into the compressor 1, and since the liquid refrigerant has a specific gravity higher than that of the compressor lubricating oil, the liquid refrigerant is located in the lower part of the compressor 1 and the The compressor lubricating oil is located at the top in the compressor 1.

Subsequently, by the compression operation of the compressor 1, the compressor lubricating oil located in the upper part of the compressor 1 is discharged together with the liquid refrigerant to the outside of the compressor 1, whereby the lubricating oil for preventing wear of the rotating part inside the compressor is insufficient. It causes damage to the compressor.

Therefore, the inverter air conditioner winds the heating wire on the surface of the compressor in order to increase the temperature of the compressor at low temperature startup, and operates the heating wire when the outdoor temperature is below a certain temperature (0 ° C.).

That is, a minute current flows to the heating wire so that the temperature of the compressor does not fall below a certain temperature (0 ° C.), and a minute current flows to the motor in the compressor to make the temperature of the compressor higher than a predetermined temperature, and then the compressor is operated at a set operating frequency. .

In the inverter air conditioner according to the prior art, when the compressor is operated at a normal operating frequency when the outdoor temperature is low, the internal lubricant is discharged to the outside, and accordingly, the lubricant is insufficient to prevent wear of the rotating part of the compressor. In order to solve the problem that causes the problem, the outer wall of the compressor was wrapped with a heating wire, a current was flowed, and a current was also flowed to the motor in the compressor to increase the temperature of the compressor.

However, this method also wraps the outer wall of the compressor with a thick material, that is, heating wire, which increases the manufacturing cost and may cause leakage of current, increases the temperature during cooling, and provides a small current to the motor in the compressor. There is a problem with this overheating.

Accordingly, the present invention has been made to solve the above problems, and the compression of the liquid refrigerant which causes the above-mentioned problem without applying a method of enclosing the heating wire or applying a current to the inner motor of the compressor, and thereby It is an object of the present invention to provide a method for preventing the compression of a liquid refrigerant of an inverter air conditioner, which can prevent damage to a compressor by preventing discharge of lubricant.

1 is a view showing a heating cycle of the inverter air conditioner according to the prior art

2 is a flow chart showing a method for preventing liquid refrigerant compression of an inverter air conditioner according to the present invention.

The present invention relates to an inverter air conditioner, wherein in an air conditioner having a compressor, a step of dividing an outdoor temperature into multiple stages, and a lowering temperature of the divided outdoor temperature at a normal operating speed up to a preset minimum operating frequency It is characterized in that it comprises a step of reducing a predetermined level than the frequency rising speed of, and entering the normal operation section after the compressor operation for a predetermined set time when the frequency rising speed reaches the minimum operating frequency.

Hereinafter, a method of preventing liquid refrigerant compression of an inverter air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a liquid refrigerant compression preventing method of the inverter air conditioner according to the present invention.

In the method for preventing the liquid refrigerant compression of the inverter air conditioner according to the present invention, referring to FIG. 2, it is checked whether the air conditioner is heating operation (S11).

In operation S11, if the air conditioner is heating, it is determined whether the initial startup is performed (S12).

Subsequently, in the determination result (S12), if the initial startup is performed, it is checked whether the outdoor temperature (t ° C) is equal to or greater than the first set temperature (−5 ° C) (S13).

When the outdoor temperature (t ° C.) is less than or equal to the first preset temperature (−5 ° C.), it is determined whether the compressor operating frequency is the minimum operating frequency (35 Hz) (S14).

If the compressor operating frequency is not any minimum operating frequency (35 Hz), the frequency rising speed (T) is decreased by 1/3 (S15), and if the compressor operating frequency is the minimum operating frequency (35 Hz), a predetermined time (5 minutes) ) Is passed (S16).

In this case, the frequency ascending speed may be defined as 'Hz / Sec', and decreasing the frequency ascending speed by 1/3 means, for example, reducing the frequency ascending speed to 4Hz / Sec when the normal ascending speed is 12Hz / Sec. However, the actual frequency may vary depending on the manufacturer or product characteristics.

On the other hand, if the check result (S16), that is, a predetermined time, that is, 5 minutes has elapsed to enter the normal operation (S22).

In addition, when the outdoor temperature t ° C. is higher than or equal to the first set temperature (−5 ° C.), the outdoor temperature t ° C. is reconfirmed whether the outdoor temperature t ° C. is higher than or equal to the second set temperature (0 ° C.) (S17).

If the outdoor temperature (t ° C.) is greater than or equal to the second set temperature (0 ° C.), operation is performed at the current frequency rising speed (T) (S18). Check (S19).

If the compressor operating frequency is any minimum operating frequency (35 Hz), the compressor operation is performed for a predetermined time (3 minutes) (S20), and if the compressor operating frequency is not the random minimum operating frequency (35 Hz), the frequency rises. The speed T is reduced by 1/2 (S21).

Subsequently, after 3 minutes have elapsed in the step (S20) and enters the normal operation (S22).

In the inverter air conditioner according to the present invention, when the outdoor temperature is low during the initial heating operation, according to the outdoor temperature condition, that is, the outdoor temperature decreases, the frequency rise speed decreases and the compressor motor rotates gradually for a predetermined time at a minimum operating frequency. This prevents the compressor from compressing the liquid refrigerant and discharging the lubricating oil to the outside of the compressor, and prevents damage to the compressor since the motor inside the compressor rises to an appropriate temperature and recovers to a normal state. It has the effect of improving product life and reliability.

Claims (2)

In an air conditioner having a compressor, the step of dividing the outdoor temperature into multiple stages; Reducing the frequency ramping-up speed by a predetermined level from the frequency ramping-up speed in normal operation so that the divided outdoor temperature is lower in temperature so that the operating frequency of the compressor reaches a preset minimum driving frequency; And when the operation frequency of the compressor reaches the minimum operation frequency, entering the normal operation section after the compressor operation for a preset time. The inverter air conditioner according to claim 1, wherein the step of dividing the outdoor temperature into a plurality of stages is a step of determining whether the outdoor temperature is greater than or equal to a first set temperature or a second set temperature higher than the first set temperature. To prevent compression of liquid refrigerant.

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