KR20080065203A - Method for controlling defrost of air conditioner - Google Patents

Abstract

A method for controlling defrosting of an air conditioner is provided to block an undesired defrosting operation even if a high-temperature preventing operation is performed to protect a compressor. A method for controlling defrosting of an air conditioner comprises as the follow steps. A controller determines if the setting for a high-temperature preventing operation is requested from a compressor and if the operation is set(S110,S120). The controller turns off the operation of a fan of an indoor unit in order to exchange the heat of an evaporator so that the high-temperature preventing operation of the compressor is performed. A temperature corresponding to a time point, in which the high-temperature preventing operation is set, is detected by a thermal sensor(S130). The detected temperature is compared with a reference temperature used to determine the start of a defrosting operation(S140).

Description

Method for controlling defrost of air conditioner {Method for controlling defrost of air conditioner}

1 is a block diagram showing the configuration of a general air conditioner.

2 is a flowchart illustrating a defrost control process of the air conditioner according to the present invention.

(Description of symbols in the drawings)

10: compressor 20: four way valve

30: outdoor heat exchanger 31: outdoor unit fan

40: electronic expansion valve 50: indoor heat exchanger

51: indoor unit fan 60: gas-liquid separator

70: temperature sensor

The present invention relates to a defrosting control method of an air conditioner, and more particularly, to control a defrosting operation of an air conditioner, which cuts the defrosting operation occurring during a high temperature prevention operation for protecting a compressor and improves heating efficiency according to unnecessary defrosting operation. It is about a method.

In general, a heat pump type air conditioner capable of cooling and heating indoors includes a compressor 10, a four-way valve 20, an outdoor heat exchanger 30, an outdoor unit fan 31, as shown in FIG. It consists of the electromagnetic expansion valve 40, the indoor heat exchanger 50, the indoor unit fan 51, the gas-liquid separator 60, and the temperature sensor 70.

Referring to the operation of the heat pump type air conditioner, first, in the cooling operation, the compressor 10 compresses the refrigerant to high temperature and high pressure and discharges it through the discharge port of the compressor 10. Heat exchanged with the outdoor air at 30) results in a low temperature high pressure refrigerant, and the electronic expansion valve 40 again becomes a low temperature low pressure refrigerant. After performing the endothermic (evaporation) process with the outside while passing through the indoor heat exchanger 50, the liquid phase is removed from the gas-liquid separator 60 is supplied to the compressor 10 through the inlet of the compressor 10 again.

In the heating operation, when the refrigerant is compressed to high temperature and high pressure by the compressor 10 and discharged through the discharge port of the compressor 10, the high temperature and high pressure refrigerant is heat-exchanged with the indoor air in the indoor heat exchanger 50, thereby reducing the high pressure. The refrigerant becomes a refrigerant of the low temperature and low pressure again in the electromagnetic expansion valve 40. After the endothermic (evaporation) process with the outside while passing through the outdoor heat exchanger 30, the liquid phase is removed from the gas-liquid separator 60 is supplied back to the compressor 10 through the inlet of the compressor (10).

In the conventional heat pump type air conditioner, in the case of heating operation, frosting occurs in the outdoor heat exchanger 30. At this time, in order to remove the frosting of the outdoor heat exchanger 30, the heating operation is stopped and then switched to the cooling mode. Perform the operation.

On the other hand, the defrosting operation may occur due to frost generated on the surface of the outdoor heat exchanger 30, but when the outdoor temperature is high during the heating operation, the outdoor unit fan (to prevent damage to the compressor due to liquid refrigerant generation). It also occurs when the high temperature prevention operation is performed by turning off the driving of 31).

However, the defrosting operation that occurs when the temperature of the outdoor heat exchanger 30 drops sharply due to the high temperature prevention operation has a problem of reducing the heating efficiency by unnecessary defrosting operation.

In order to solve the above problems, an object of the present invention is to provide a defrosting control method of the air conditioner to prevent unnecessary defrosting operation during the heating operation of the heat pump type air conditioner.

Defrost control method of the air conditioner according to the present invention for achieving the above object is a) a high temperature prevention operation of the compressor to compress the refrigerant by the control unit for controlling the operation of the air conditioner when the air conditioner performs a heating operation Detecting whether a setting request is made; b) if it is requested to set the high temperature protection operation of the compressor for compressing the refrigerant, the controller performs the high temperature protection operation of the compressor by turning off the operation of the outdoor unit fan when the setting of the high temperature protection operation of the compressor is requested. Detecting a temperature at a point in time at which a high temperature prevention operation is set by a temperature sensor detecting a temperature of an outdoor heat exchanger; c) comparing the detected temperature by the control unit with the reference temperature for defrost operation entry determination in the step of detecting the temperature at the time when the high temperature prevention operation is set from the temperature sensor; And d) comparing the detected temperature with a reference temperature for defrosting operation determination. If the detected temperature at the time when the high temperature prevention operation is set is equal to or greater than the reference temperature for defrosting operation determination, the controller is set in advance. And determining whether to perform the defrosting operation after elapse of time.

The controller may perform the defrosting operation when the detected temperature is less than or equal to the defrosting operation determination reference temperature when the detected temperature is set when the high temperature prevention operation is set. It is characterized by performing.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, repeated description of the same configuration as in the prior art is omitted, and the same reference numerals are used for the same configuration.

2 is a flowchart illustrating a defrost control process of the air conditioner according to the present invention.

1 and 2, the defrost control method of the air conditioner is a control unit (not shown) for controlling the operation of the air conditioner when the air conditioner performs a heating operation (S100) due to the high temperature outdoor temperature In operation S110, it is determined whether a high temperature protection operation setting of the compressor 10 that compresses the refrigerant is requested, and it is determined whether the requested high temperature protection operation is set in step S110 (S120).

When the high temperature prevention operation is set in step S120, the control unit turns off the operation of the outdoor unit fan 31 which is being driven for heat exchange of the outdoor heat exchanger 30 when the high temperature prevention operation is set, thereby causing the high temperature of the compressor 10 to operate. Perform preventive action.

In addition, the temperature is installed at one side of the outdoor heat exchanger (30) to detect the temperature of the time when the high temperature prevention operation is set from the temperature sensor 70 for detecting the temperature of the outdoor heat exchanger (30), and the detected temperature It is compared with the reference temperature for the defrosting operation determination (S140).

That is, the detection and comparison of the temperature at the time point at which the high temperature prevention operation is set in steps S130 and S140 is performed when the normal defrost operation condition is less than -5 ° C detected by the temperature sensor 70, but the high temperature is performed. When the prevention operation is set and the driving of the outdoor unit fan 31 is terminated, the temperature of the outdoor heat exchanger 30 is drastically lowered to enter the defrosting operation condition, and thus the defrosting is performed according to the condition that requires the actual defrosting operation and the setting of the high temperature prevention operation. To distinguish between conditions.

As a result of the comparison in step S140, when the temperature detected in step S130 is equal to or greater than the reference temperature (for example, −4 ° C.) for the defrosting operation determination, it is determined that the defrosting operation is unnecessary and a preset time (for example, 20 minutes Control not to perform the defrosting operation during (S150).

When the predetermined time has elapsed in step S150, the control unit determines that the air conditioner is in a defrosting operation entry condition (for example, when the continuous driving time of the compressor is 45 minutes or more or the temperature detected by the temperature sensor is -5 ° C or less). The defrosting operation is performed according to whether or not it is satisfied (160).

 Further, when the high temperature prevention operation is not set in step S120, the controller performs heating operation or defrosting operation according to whether the air conditioner satisfies the defrosting operation condition (S160).

In addition, when the detected temperature is less than the reference temperature for the defrosting operation entry determination in step S140, the controller performs defrosting operation (S160).

Therefore, due to the high temperature prevention operation of stopping the outdoor unit fan 31 for protecting the compressor, continuous heating is possible by blocking unnecessary defrosting operation even when a defrosting operation condition occurs.

As described above, the present invention has an advantage of blocking unnecessary defrosting even when a high temperature prevention operation for protecting the compressor is performed.

In addition, the present invention has the advantage that the continuous heating is possible by blocking the defrost operation caused by the high temperature prevention operation.

In addition, the present invention has the advantage of increasing the heating efficiency by controlling the unnecessary defrosting operation of the air conditioner, and to control the continuous heating operation.

Claims (2)

a) detecting, by the controller controlling the operation of the air conditioner, whether to request the setting of the high temperature protection operation of the compressor compressing the refrigerant when the air conditioner performs the heating operation; b) in the step of detecting whether to set the high temperature protection operation of the compressor for compressing the refrigerant, when the setting of the high temperature protection operation of the compressor is requested, the control unit turns off the operation of the outdoor unit fan to perform the high temperature protection operation of the compressor. Detecting a temperature at a point in time at which a high temperature prevention operation is set by a temperature sensor detecting a temperature of an outdoor heat exchanger; c) comparing the detected temperature by the control unit with the reference temperature for defrost operation entry determination in the step of detecting the temperature at the time when the high temperature prevention operation is set from the temperature sensor; And d) as a result of comparing the detected temperature with a reference temperature for defrosting operation entry determination, and, if the detected temperature at the time when the high temperature prevention operation is set is equal to or greater than the reference temperature for defrosting operation entry determination, the controller sets a preset time And deciding whether to perform defrosting operation after the elapse of time. The method of claim 1, As a result of comparing the detected temperature with a reference temperature for defrost operation entry determination, when the detected temperature at the time when the high temperature prevention operation is set is less than the reference temperature for defrost operation entry determination, the controller performs defrost operation. Defrost control method of an air conditioner, characterized in that.

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