KR20020015561A - Method for controlling fan of airconditioner - Google Patents

Abstract

PURPOSE: A method for controlling an indoor fan in an air conditioner is provided to operate a normal heating operation at low temperature by differing temperature controlling the indoor fan and to improve heating efficiency. CONSTITUTION: An air conditioner having an indoor fan comprises a condenser(3) condensing gas refrigerant of high temperature and pressure discharged form a compressor by being mounted on an indoor; an indoor fan(1) absorbing clod indoor air and discharging heated air by controlling current of air; an indoor pipe sensor(7) detecting temperature of a pipe passing through the condenser; an indoor temperature sensor(5) detecting the indoor temperature; a compressor(13) compressing the refrigerant; an evaporator(15) vaporizing the condensed refrigerant; an outdoor fan(17) promoting heat exchanged by blowing wind into the evaporator; and an outdoor temperature sensing sensor(19) detecting the outdoor temperature. Thereby, a method for controlling the indoor fan in the air conditioner operates a normal heating operation at low temperature by differing temperature controlling the indoor fan.

Description

Indoor fan control method of air conditioner {METHOD FOR CONTROLLING FAN OF AIRCONDITIONER}

The present invention relates to a method of controlling an indoor fan of an air conditioner, and more particularly, to an indoor fan control method of an air conditioner for improving a heating operation rate by controlling an indoor fan variably according to an indoor temperature during a heating operation. It is about.

The air conditioner drives the heating cycle and the cooling cycle according to the user's request, warms the room in the cold winter by the operation of the heating cycle, and cools the room in the hot summer by the operation of the cooling cycle.

The circulation cycle of the air conditioner configured as described above comprises a heating cycle when the indoor heat exchanger functions as a condenser and constitutes a cooling cycle when the indoor heat exchanger functions as an evaporator.

The heating operation by the heating cycle is performed by the refrigerant flowing in the indoor heat exchanger releasing heat to the indoor air and discharging warm wind to the indoor side. The cooling operation by the cooling cycle is performed by the refrigerant flowing in the indoor heat exchanger absorbing the heat of the indoor air and discharging the cool wind to the indoor side.

When performing the cooling operation or the heating operation as described above, the indoor fan is operated to promote heat exchange between the refrigerant flowing in the indoor heat exchanger and the indoor air.

Next, a process of controlling an indoor fan during heating operation in a conventional air conditioner will be described with reference to FIG. 1.

When the operation command is input by the user, the controller (not shown) checks whether the heating operation is performed (step 100), and compares the indoor temperature with the desired temperature set by the user (step 103).

In step 103, when the room temperature is lower than the desired temperature set by the user, the controller operates the compressor to operate the above-described heating cycle (step 106). When the heating cycle is operated, the indoor heat exchanger is configured to create a comfortable environment while discharging warm wind.

However, immediately after the heating cycle is started, the refrigerant passing through the indoor heat exchanger is not yet heated. Therefore, when the heating cycle is operated and the indoor fan is operated at the same time, a phenomenon in which cold wind is discharged to the indoor side occurs. In this case, the user suspects the performance of the air conditioner by discharging cold wind despite the heating operation of the air conditioner, which causes a problem of lowering the reliability of the product.

Therefore, in the conventional air conditioner, even after the heating operation is performed, the operation of the indoor fan is controlled to the stopped state until the indoor piping temperature reaches a predetermined temperature or more.

That is, in the process of performing the heating operation according to the 106th step, the controller detects the temperature of the pipe passing through the indoor heat exchanger and determines whether the indoor pipe temperature has reached a predetermined temperature (a ° C.) or more. Step 109). When the condition of step 109 is not satisfied, the indoor fan is stopped (step 115), and when the condition of step 109 is satisfied after a predetermined time elapses after the heating operation is performed, the indoor fan is controlled to operate. (Step 112).

After the heating operation is performed, if a predetermined time has elapsed and the room temperature is higher than the desired temperature, the controller controls the operation of the compressor to be stopped (step 118). And even when the operation of the compressor is stopped, the indoor piping controls the indoor fan to the operating state at a predetermined temperature (b ° C.) or more so that the warm wind is circulated to the room (step 121 and step 124), and the predetermined temperature ( b ° C) or below, the indoor fan is controlled to a stop state (step 127).

That is, the conventional air conditioner controls the operation of the indoor fan at the time of heating operation based on the indoor piping temperature which is set constant. However, such a control method causes a problem that the indoor fan is always controlled to be in an off state when the heating operation is performed in a low temperature environment.

When the heating operation is performed under the low temperature of the outdoor temperature, the heating capacity of the air conditioner is inevitably deteriorated. In this case, the indoor piping temperature is difficult to rise in a short time, and thus the indoor fan is always in the off state, and thus, the normal heating operation cannot be performed.

In other words, the heating operation of the air conditioner will be performed mostly in winter. However, depending on the region and country, the outside temperature of the air conditioner is different, and in this case, the heating capacity of the air conditioner is different. Therefore, the air conditioner that performs the heating operation in a region where the weather is relatively cold, the temperature decreases as a whole heating cycle, the indoor piping temperature is also relatively low due to this problem.

Therefore, when the heating operation is performed in a low temperature environment, the indoor piping temperature is often lower than the predetermined temperature (a ℃) set in step 109 of FIG. 1, and the indoor fan is always controlled to the off state every time. Due to the heating operation did not work properly. As a result, the conventional control method causes a problem that the heating operation rate is lowered while the heating operation is not normally performed in a low temperature environment.

Accordingly, an object of the present invention is to provide a method for controlling an indoor fan of an air conditioner that can variably adjust the operating temperature of an indoor fan according to an indoor temperature in a low temperature environment, thereby improving heating operation efficiency.

1 is a flow chart of the indoor fan during the heating operation of the air conditioner according to the prior art,

2 is a configuration diagram of a general air conditioner,

Figure 3 is a flow chart of the indoor fan during the heating operation of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

1: indoor fan 3: condenser

5: room temperature sensor 7: pipe sensor

9: expansion device 11: four sides

13: compressor 15: evaporator

17: outdoor fan 19: outdoor temperature sensor

21: plumbing

Indoor fan control method of the air conditioner according to the present invention for achieving the above object comprises the steps of: detecting the room temperature; Performing a heating operation when the detected indoor temperature is lower than a desired temperature; Determining a low temperature condition based on the detected room temperature during a heating operation; When the low temperature conditions, it comprises a step of controlling the operating temperature of the indoor fan.

The present invention is characterized in that, if the detected room temperature is high, the operating temperature of the indoor fan is high, and if the detected room temperature is low, the operating temperature of the indoor fan is also low.

The operating temperature of the indoor fan of the present invention is characterized in that it is made based on the indoor piping temperature.

Hereinafter, a method for controlling an indoor fan of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a general air conditioner.

As shown in FIG. 2, the air conditioner is divided into an indoor unit and an outdoor unit, and the indoor unit is located on the indoor side during the heating operation, and has a condenser 3 for condensing the high temperature and high pressure gas refrigerant discharged from the compressor. In addition, in order to promote heat exchange between the indoor air and the refrigerant flowing in the condenser (3), and includes an indoor fan (1) for controlling the flow of air so that the warm air is discharged. And it further includes an indoor pipe sensor (7) for detecting the temperature of the pipe through the condenser (3), and a room temperature sensor (5) for detecting the indoor temperature.

The outdoor unit of the air conditioner includes a compressor 13 for compressing a refrigerant, an evaporator 15 for evaporating the condensed refrigerant, an outdoor fan 17 for blowing heat to the evaporator 15 to promote heat exchange, and And an outdoor temperature sensor 19 for outdoor temperature detection.

And a pipe 21 through which the refrigerant flows is installed between the indoor unit and the outdoor unit, the refrigerant flowing in the pipe 21 is a compressor (13) → condenser (3) → evaporator (15) → during heating operation Again circulated to the compressor (13). In addition, an expansion device 9 is provided between the condenser 3 and the evaporator 15 to control the temperature and pressure of the refrigerant condensed in the condenser. In addition, the air conditioner includes a four-sided side 11 for switching the circulation direction of the refrigerant compressed by the compressor 13 according to a cooling operation cycle or a heating operation cycle.

The following describes the heating operation control process in the air conditioner of the present invention configured as described above.

The circulating cycle of the refrigerant during the heating operation is switched from the four sides 11 by the control of a control unit (not shown), so that from the compressor 13 to the condenser 3 → the evaporator 15 → and back to the compressor 13. Is determined.

Therefore, the refrigerant compressed by the compressor 13 is supplied to the condenser 3 on the indoor side to exchange heat with the indoor air. The heat exchange in the condenser 3 is generated between the refrigerant flowing through the pipe of the condenser 3 and the indoor air. That is, as the heat contained in the refrigerant is released to the indoor air side, the indoor air is controlled to a warm state including heat. The refrigerant deprived of heat from the condenser (3) is supplied to the evaporator (15) to cause evaporation to absorb heat contained in the outdoor air, and then flows back into the compressor (13) to repeat the process. will be.

When the heating operation cycle is performed by this process (step 200), the control unit (not shown) detects the indoor temperature through the indoor temperature sensor 5, and the compressor under the condition lower than the desired temperature set by the user. To drive the heating operation cycle (steps 203 and 206).

On the other hand, the indoor fan 1, when the heating operation cycle is driven, performs a function of promoting heat exchange in the condenser (3), and at the same time is operated on to adjust the heat exchanged indoor air evenly distributed in the room Is common.

However, when the indoor fan 1 operates while the refrigerant flowing in the indoor pipe is less heated, since the cool wind is discharged to the indoor side, it is necessary to drive the indoor fan 1 appropriately according to the indoor temperature and the indoor piping temperature. .

Accordingly, the present invention determines whether the indoor temperature detected by the indoor temperature sensor 5 is above a predetermined temperature (P ° C.) in the state where the compressor 206 is operated in step 206 (step 209). Step 209 is a process for determining whether the heating operation is being performed at a low temperature condition or within a normal temperature range.

When the condition of step 209 is satisfied, it is determined that the heating operation is performed in the normal temperature range, and then it is determined whether the detection temperature of the pipe sensor 7 is equal to or higher than a predetermined temperature (D ° C.) (step 212). ).

If the indoor temperature is equal to or greater than the predetermined temperature (P ° C.) and the indoor piping temperature is equal to or greater than the predetermined temperature (D ° C.), the controller operates the indoor fan 1 (step 215).

However, at the beginning of the heating operation, the temperature detected by the pipe sensor 7 is lower than the predetermined temperature (D ° C.). In this case, the controller controls the indoor fan 1 to be in a stopped state, and discharges cool wind into the room. Prevention (step 218).

When the indoor fan 1 according to step 218 is stopped, the heating operation by the operation of the compressor is performed, and when the heating operation is normally performed, the heating operation cycle reaches a normal state when a predetermined time T1 elapses. Therefore, the indoor piping reaches a predetermined temperature (E ° C.) or more.

Therefore, the controller monitors whether the indoor piping temperature reaches a predetermined temperature (E ° C.), and controls the indoor fan to be in a stopped state when the condition of step 224 is not satisfied (step 230). If the condition of the step is satisfied, the indoor fan is switched to the operating state (step 227), and the warm air is discharged to the room, thereby controlling to create a comfortable heating environment.

On the other hand, when the indoor temperature is lower than the predetermined temperature (P ℃) in the state in which the heating operation by the operation of the compressor 13 in the step 206 (step 209), the control unit in the heating operation state at low temperature conditions To judge.

Therefore, in this case, the temperature of the indoor pipe for operating the indoor fan is also lowered and controlled. Therefore, when the indoor piping temperature detected through the pipe sensor 7 is equal to or higher than the predetermined temperature (A ° C.) (step 233), the indoor fan 1 is controlled to an operating state (step 236).

Of course, the indoor piping temperature A ℃ for controlling the indoor fan 1 to the operating state in the step 236 under low temperature conditions, the indoor piping temperature D for controlling the indoor fan 1 to the operating state in the step 212 under normal operation. It is set lower than ℃.

When the indoor temperature is lower than the predetermined temperature (P ° C.) and the indoor piping temperature is lower than the predetermined temperature (A ° C.) in step 209, the indoor fan temperature is determined to be too low even in a low temperature condition. Control to a stop state (step 239).

When the indoor fan 1 is stopped at step 239, the heating operation by the operation of the compressor is performed, and when the heating operation is normally performed, the heating operation cycle reaches the normal state when a predetermined time T1 elapses. Therefore, the indoor piping reaches a predetermined temperature (B ° C) or more.

Therefore, the controller monitors whether the indoor piping temperature reaches a predetermined temperature (B ° C.) under a low temperature condition, and controls the indoor fan to be in a stopped state when the condition of step 245 is not satisfied (step 251). If the condition of step 245 is satisfied, the indoor fan is switched to an operating state (step 248), and the warm air is discharged to the room, thereby controlling to create a comfortable heating environment.

When the indoor temperature detected by the indoor temperature sensor 5 becomes higher than the desired temperature set by the user by the control operation of the heating operation as described above, the control unit controls the operation of the compressor 13 in the stopped state, thereby heating. The driving of the driving cycle is temporarily stopped (step 254).

At this time, it is determined whether the indoor pipe temperature detected by the pipe sensor 7 is above a predetermined temperature (F ° C.) (step 257), and the indoor fan 1 is operated only when the condition of step 257 is satisfied. Control (step 260).

When the predetermined temperature (F ° C.) or less is determined, the indoor piping temperature is relatively low compared to the indoor temperature, and the indoor fan is controlled to be turned off (step 263). That is, in step 263, the room piping temperature is relatively low compared to the room temperature. In this case, when the indoor fan 1 is operated and the wind is discharged to the indoor side, the haptic temperature caused by the discharged wind is regarded as relatively low compared to the indoor temperature, and the cold feeling is felt. In this case, therefore, the indoor fan is turned off.

Therefore, the present invention is characterized by sensing the indoor temperature, differentiating the operating temperature for operating the indoor fan according to the indoor temperature, enabling heating operation even at low temperature conditions, characterized in that to improve the heating capacity. That is, the present invention is characterized in that when the indoor temperature is low, the operating temperature for operating the indoor fan is also lowered, and when the indoor temperature is high, the operating temperature of the indoor fan is also increased.

As described above, the indoor fan control method of the air conditioner according to the present invention is differentiated from the temperature controlling the indoor fan according to the room temperature even in a low temperature condition, thereby obtaining the effect of allowing normal heating operation at low temperature conditions. do. Therefore, it is possible to improve the heating capacity of the air conditioner, and furthermore, the air conditioner is able to perform normal heating regardless of temperature change according to region and country.

Claims (3)

Detecting an indoor temperature; Performing a heating operation when the detected indoor temperature is lower than a desired temperature; Determining a low temperature condition based on the detected room temperature during a heating operation; When the low temperature conditions, the indoor fan control method of the air conditioner comprising the step of controlling the operating temperature of the indoor fan. The method of claim 1 wherein: If the detected indoor temperature is high, the operating temperature of the indoor fan is high, and if the detected indoor temperature is low, the operating temperature of the indoor fan is low. The method of claim 2 wherein: The operating temperature of the indoor fan, the indoor fan control method of the air conditioner, characterized in that made based on the indoor piping temperature.