KR20060078322A - Method for defrosting operation of air-conditioner used both cooler and heater - Google Patents

Abstract

The present invention relates to a defrosting operation control method for a combined air-conditioning and air conditioner, and when an frosting is performed in an outdoor heat exchanger, the heat exchange is not normally performed through the outdoor heat exchanger. When defrosting is carried out there is an advantage that can maximize the heating operation rate by performing a defrost operation.

Air conditioning, combined air conditioner, defrosting operation, indoor heat exchanger, temperature difference

Description

Defrosting operation control method of combined air conditioning and heating {METHOD FOR DEFROSTING OPERATION OF AIR-CONDITIONER USED BOTH COOLER AND HEATER}             

1 is a refrigerant circulation diagram of a general air-conditioning combined air conditioner.

Figure 2 is a flow chart showing a defrosting operation control method of a conventional air-conditioning combined air conditioner.

3 is a flowchart illustrating a method for controlling defrosting of a combined air conditioning and air conditioner according to the present invention.

   -Explanation of symbols for the main parts of the drawings-

30: indoor heat exchanger 40: outdoor heat exchanger

110: room temperature sensor 120: room heat exchanger temperature sensor

140: indoor fan 210: compressor

240: four sides 260: outdoor temperature sensor

270 temperature sensor for outdoor heat exchanger

The present invention relates to a defrosting operation control method of a combined air-conditioning and air conditioning, and more particularly, when the frosting proceeds to the outdoor heat exchanger, the heat exchange is not normally performed through the outdoor heat exchanger, so that the temperature drops sharply only through the outdoor heat exchanger temperature sensor. The present invention relates to a defrosting operation control method of a combined air-conditioning and heating system for maximizing a heating operation rate by performing defrosting operation when the frosting proceeds substantially.

In general, the air conditioner uses the phenomenon of absorbing the surrounding heat when the liquid evaporates, and performs cooling as well as dehumidification. By the way, in the case of air-conditioning combined air-conditioning and cooling and heating, the circulation path of the refrigerant is reversed so that the heat is absorbed and released into the room during the heating operation, and the heat is absorbed and released into the outdoor during the cooling operation. .

As the frost is formed on the outdoor heat exchanger coil during the evaporation process of absorbing the surrounding heat in the outdoor heat exchanger during the heating operation of the combined air-conditioning and air conditioning, the defrosting operation is performed to remove the frost.

1 is a refrigerant circulation diagram of a general air-conditioning combined air conditioner.

As shown here, the outdoor unit 20 includes a compressor 210 for compressing a refrigerant, and four sides 240 for changing a circulation path of the refrigerant at an output end of the compressor 210. In addition, an outdoor heat exchanger 40 having one side connected to the four sides 240 to heat exchange outdoors, and an indoor heat exchanger 30 having one side connected to the four sides 240 to heat exchange indoors, and indoor heat exchange The pressure reducing device 50 is provided between the other side of the device 30 and the other side of the outdoor heat exchanger 40.

In addition, the indoor heat exchanger 30 is provided with an indoor temperature sensor 110 for measuring an indoor temperature and an indoor heat exchanger temperature sensor 120 for measuring a coil temperature of the indoor heat exchanger 30. 40 is provided with an outdoor temperature sensor 260 for measuring the outdoor temperature and an outdoor heat exchanger temperature sensor 270 for measuring the coil temperature of the outdoor heat exchanger 40.

Looking at the coolant net environmental path of the air-conditioning combined air conditioning as described above are as follows.

First, during the cooling operation, that is, the refrigerant compressed by the compressor as shown by the solid arrow is flowed into the outdoor heat exchanger 40 as the path is set to flow from the four sides 240 to the outdoor heat exchanger 40. After dissipating the heat is sent to the decompression device 50, and again to the indoor heat exchanger (30) is evaporated in a gaseous state in the liquid state is made of heat exchange to absorb the surrounding heat is made through the compressor again through the four sides (240) Sent to 210 to cycle.

At this time, since the indoor heat exchanger 30 installed in the room absorbs the surrounding heat, the room is cooled.

Next, during the heating operation, the refrigerant compressed by the compressor 210 flows to the indoor heat exchanger 30 as the refrigerant flows from the four sides 240 to the indoor heat exchanger 30 as shown by the dotted arrow. After dissipating the contained heat is sent to the decompression device 50, and again to the outdoor heat exchanger (40) is evaporated in a gaseous state in the liquid state is a heat exchange to absorb the surrounding heat is made through the four sides (240) It is sent back to the compressor 210 to circulate.

At this time, since the heat contained in the refrigerant is released from the indoor heat exchanger 30 installed in the room, the room is heated.

In the heating operation of the combined air-conditioning and air conditioning made as described above, the defrosting operation is performed to remove the frost on the coil of the outdoor heat exchanger 40 during the evaporation process of absorbing the surrounding heat from the outdoor heat exchanger 40.

Therefore, the frost sensor may be attached to the outdoor heat exchanger 40 to determine whether the frosting is performed on the coil of the outdoor heat exchanger 40 to perform the defrosting operation. In this case, the defrosting operation is performed by determining whether the implantation is performed through the outdoor heat exchanger temperature sensor 270 and the outdoor temperature sensor 260.

2 is a flowchart illustrating a defrosting operation control method of a conventional air-conditioning combined air conditioner.

As shown here, when the air-conditioning combined air conditioning is a heating operation, the outdoor heat exchanger temperature and the outdoor temperature are measured through the outdoor heat exchanger temperature sensor 270 and the outdoor temperature sensor 260.

Then determine if the outdoor temperature is higher than 2 ℃.

So, if the outdoor temperature is higher than 2 ℃, the defrosting operation is performed when the outdoor heat exchanger temperature is lower than -5 ℃. If the outdoor temperature is lower than 2 ℃, the defrosting operation is performed when the outdoor heat exchanger temperature is lower than -10 ℃. It is set to perform operation.

However, by determining only the absolute temperature of the outdoor heat exchanger according to a certain standard outdoor temperature as described above and entering the defrosting operation, the defrost entry proceeds too fast or too late or in some cases, depending on the outdoor temperature and humidity. There is a problem in that the heating operation rate is lowered as the defrosting operation is performed even in a state in which the implantation is not performed.

The present invention was created in order to solve the above problems, and an object of the present invention is that the heat exchange through the outdoor heat exchanger is not normally performed when the implantation proceeds to the outdoor heat exchanger. By judging through the defrosting operation is carried out by substantially defrosting to provide a defrosting operation control method of a combined air conditioning and air conditioning to maximize the heating operation rate.

The present invention for realizing the above object is to operate the four sides for a set time after determining the defrosting operation time to remove the frost formed in the outdoor heat exchanger coil during heating operation of the combined air-conditioning and air conditioner having an outdoor heat exchanger temperature sensor In the defrosting operation control method of a combined air conditioning and air conditioner which performs a defrosting operation by changing the circulation path of the refrigerant by controlling the control, determining whether the heating operation continues to be operated for the first predetermined time, and the heating operation is the first predetermined time. Continuously measuring the temperature of the indoor heat exchanger at regular intervals when the operation is continued, and if the measured temperature of the indoor heat exchanger is below the reference value and the temperature change continues below the predetermined value for more than the second preset time, defrosting operation is performed. Characterized in that consisting of steps to perform.

In the present invention, the first set time is characterized in that 40 minutes.

In the present invention, the predetermined time interval is characterized in that the interval of 1 minute.

In the present invention, the temperature change is characterized by a temperature change between the indoor heat exchanger temperature measured 10 minutes ago and the currently measured indoor heat exchanger temperature.

In the present invention, the constant value of the temperature change is characterized in that 5 ℃.

In the present invention, the second set time is 10 minutes.

According to the present invention made as described above, when the frosting is performed in the outdoor heat exchanger, the heat exchange through the outdoor heat exchanger is not normally performed. It is possible to increase the heating operation rate.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

3 is a flowchart sequentially illustrating a method of controlling a defrosting operation of a combined air conditioning and air conditioner according to the present invention.

As shown here, it is determined whether the dual-purpose air-conditioning and air-conditioning has been operated continuously for the first set time, that is, for 40 minutes (S20). After continuously heating for 40 minutes as described above, the temperature of the outdoor heat exchanger 40 is continuously measured at predetermined time intervals, that is, at 1 minute intervals (S22).

Thus, while continuously measuring the temperature of the outdoor heat exchanger 40 at intervals of 1 minute, first, it is determined whether the current temperature of the outdoor heat exchanger 40 is 0 ° C. or less (S24). At this time, when the current temperature of the outdoor heat exchanger 40 is 0 ° C. or less, the temperature difference is calculated by comparing the temperature of the outdoor heat exchanger 40 measured 10 minutes ago with the temperature of the outdoor heat exchanger 40 currently measured, and calculating the temperature difference. It is determined whether it has changed significantly (S26).

That is, when the frosting is performed on the outdoor heat exchanger 40, since the heat exchange through the outdoor heat exchanger 40 is not normally performed, the temperature change is performed at intervals of 10 minutes as the temperature of the outdoor heat exchanger 40 drops sharply. If it is greater than 5 ℃ it is determined that the radical change (S28).

In this case, if the rapid temperature change is continued for more than 10 minutes, the defrosting is performed in the outdoor heat exchanger 40 and the defrosting operation for defrosting is performed (S30).

As described above, the frosting is performed on the outdoor heat exchanger 40 so that the heating operation rate can be maximized by performing a defrosting operation by detecting a time point that directly affects the heat exchange through the outdoor heat exchanger 40.

As described above, according to the present invention, when defrosting is performed in the outdoor heat exchanger, heat exchange through the outdoor heat exchanger is not normally performed, and the defrosting operation is performed when the defrosting is substantially performed by judging the time when the temperature drops sharply using only the outdoor heat exchanger temperature sensor. There is an advantage to maximize the heating operation rate by performing.

Claims (6)

After defrosting operation time is determined to remove the frost formed on the outdoor heat exchanger coil during the heating operation of the combined air-conditioning and air conditioner equipped with the outdoor heat exchanger temperature sensor, the operation of the four sides for the set time is controlled to change the circulation path of the refrigerant. In the defrosting operation control method of the combined air-conditioning and air conditioning to perform the operation Determining whether the heating operation is continuously operated for a first predetermined time; Continuously measuring the temperature of the indoor heat exchanger at a predetermined time interval when the heating operation is operated continuously for the first predetermined time; Performing a defrosting operation when the measured indoor heat exchanger temperature is below a reference value and the temperature change lasts for a predetermined time or more for a second time or more. Defrosting operation control method of a combined air conditioning and heating, characterized in that consisting of. The method of claim 1, wherein the first set time is 40 minutes. The method of claim 1, wherein the predetermined time interval is one minute interval. The method of claim 1, wherein the temperature change is a change in temperature between an indoor heat exchanger temperature measured 10 minutes ago and a currently measured indoor heat exchanger temperature. The method of claim 1, wherein the constant value of the temperature change is 5 ° C. The method of claim 1, wherein the second preset time is 10 minutes.

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