KR20050122627A - Device for preventing dewing in air conditioner and method thereof - Google Patents

Abstract

The present invention relates to an apparatus for preventing dew condensation of an air conditioner and a control method thereof. In particular, the present invention simplifies a control circuit and a control method of a compressor and lowers the overall product cost. In addition, the present invention effectively prevents dew condensation without excessively lowering cooling performance.

To this end, the present invention determines whether the compressor driving unit for turning on or off the compressor, the indoor humidity detection unit for detecting the indoor humidity and whether dew condensation conditions according to the detected indoor humidity, and if the dew condensation conditions, the compressor driving unit to drive the compressor It includes a control device for periodically off for a predetermined time to prevent dew condensation.

Description

Dew condensation prevention device of air conditioner and its control method {DEVICE FOR PREVENTING DEWING IN AIR CONDITIONER AND METHOD THEREOF}

The present invention relates to an air conditioner, and more particularly to an apparatus for preventing dew condensation of an air conditioner capable of preventing dew condensation generated during a cooling operation.

In general, during the cooling operation of the air conditioner, the indoor air sucked through the main body suction port is heat-exchanged in the indoor heat exchanger inside the main body, and the heat-exchanged cold air is discharged into the room through the main body discharge port.

However, a large amount of dew is formed in the discharge port by mixing the cool air discharged into the room from the main body discharge port and the hot air in the room.

When the dew flows along the front of the main body, not only the appearance of the air conditioner is adversely affected, but also when the dew flows into the main body, there is a problem that the electric parts inside the main body fail.

Therefore, in the conventional air conditioner, a variable capacity compressor of an inverter type is employed, and in the case of dew condensation conditions, a drive frequency lower than the operating frequency of the compressor to prevent dew condensation, and when a predetermined time according to the dew condensation condition has elapsed, In addition, dew condensation is prevented by driving at the operating frequency of the compressor in the steady state again.

However, conventionally, because the inverter adopts a variable capacity compressor of the inverter type, the control circuit is complicated, and the control method is not only difficult, but also a problem of increasing the overall product cost due to the use of a relatively expensive inverter variable capacity type compressor. have.

The present invention is to solve the above-mentioned problems, the object of the present invention is to simplify the control circuit and control method of the compressor, not only to lower the overall product cost, but also to effectively prevent dew condensation without excessively reducing the cooling performance. It is to provide an apparatus for preventing dew condensation of an air conditioner which can be prevented and a control method thereof.

Dew condensation preventing device of the air conditioner of the present invention for achieving the above object is a compressor driving unit for turning on or off the compressor, the indoor humidity detection unit for detecting the indoor humidity and whether the dew condensation conditions according to the detected indoor humidity If it is determined that the dew condensation conditions, and driving the compressor drive unit includes a control device to prevent the dew condensation by periodically turning off the compressor.

The dew condensation preventing device of the air conditioner includes an indoor temperature detector for detecting an indoor temperature, and the control device is characterized in that the off time of the compressor is variable based on the detected indoor humidity and room temperature.

The control device is based on the dew condensation condition determination unit for determining whether the dew condensation condition according to the indoor humidity and the indoor humidity difference and the indoor temperature difference between the respective indoor temperatures and the indoor humidity detected with a predetermined time difference. Dew condensing degree determination unit for determining the degree of dew condensation, compressor off time setting unit for setting a predetermined time corresponding to the dew condensation degree to the off time of the compressor, and the dew condensing condition determination unit through the dew condensation condition determination unit The compressor off time setting unit controls the compressor off time setting unit to set the off time of the compressor at a time corresponding to the dew condensation degree determined by the dew condensing degree determining unit, and periodically performs the compressor on the basis of the set off time of the compressor. It characterized in that it comprises a control unit to turn off.

The dew condensation degree determining unit determines that the dew condensation degree is smaller as the indoor temperature difference and the indoor humidity difference is larger, and that the dew condensation degree is larger as the indoor temperature difference and the indoor humidity is smaller.

The control unit increases the off time of the compressor as the degree of dew condensation increases, and shortens the off time of the compressor as the degree of dew condensation decreases.

The control unit is characterized in that the compressor is periodically turned off for a time corresponding to the degree of dew formation.

The controller is characterized in that when the time corresponding to the dew formation degree elapses, the compressor operates normally.

The compressor is characterized in that the constant speed compressor.

In addition, the method for controlling the dew condensation preventing device of the air conditioner of the present invention in the dew condensation prevention method of the air conditioner having a constant speed compressor, detecting the indoor humidity, dew condensation based on the detected indoor humidity It is determined whether or not the condition, and if the dew condensation condition, it is characterized in that the compressor is periodically turned off to prevent dew condensation.

The time that the compressor is off is characterized in that it varies depending on the degree of dew formation.

The dew condensation detects the indoor humidity and the room temperature with a predetermined time difference, and the indoor humidity difference and the indoor temperature difference are previously determined based on the indoor humidity difference between the detected indoor humidity and the indoor temperature difference between the indoor temperatures. It is characterized by determining that the dew condensation degree is smaller as the value is larger than the set value, and that the dew condensation degree is larger as the value is less.

The compressor is characterized in that it is turned off periodically for a time determined by the degree of dew formation.

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

As shown in FIG. 1, an apparatus for preventing dew condensation of an air conditioner according to an exemplary embodiment of the present invention detects indoor humidity that is sucked through a control device 10 that performs overall dew condensation prevention control, and an inlet formed in a main body. The indoor humidity detection unit 20, the indoor temperature detection unit 21 for detecting the temperature of the indoor air sucked into the suction port formed in the main body, and a key input unit for receiving an operation mode such as operation / stop and cooling operation of the air conditioner. (22), a compressor driving unit (30) for turning on or off the compressor (31) by supplying or blocking power supplied to the compressor (31), and blowing the indoor air to the heat exchanger side provided in the main body through a suction port, And a fan driving part 40 for driving the indoor fan 41 which blows the exchanged cold air to the indoor side through the discharge port. At this time, the compressor 31 is a fixed capacity compressor of a fixed capacity type.

The control device 10 determines whether the dew is likely to form in the discharge port according to the indoor humidity detected by the indoor humidity detection unit 20, and if the dew is likely to form, to perform the dew condensation prevention operation In order to prevent dew condensation by periodically turning off the compressor through the compressor driver 30.

In detail, the control device 10 includes a dew condensation condition determination unit 12 and an indoor humidity detection unit 20 which determine whether dew condensation is formed at the discharge port based on the indoor humidity detected by the indoor humidity detection unit 20. And the dew condensation degree determining unit 13 for determining the dew condensation degree on the basis of the difference value between the indoor humidity and the room temperature detected by the indoor temperature detection unit 21 for a predetermined time. Compressor off which sets the off time of the compressor 31 corresponding to the output signal of the dew condensation determination part 13 to the off time of the compressor 31 at the time of dew condensation prevention operation so that the intensity of the dew condensation prevention operation may be adjusted accordingly. Time setting unit 14, and the control unit 11 for controlling the above-described components as a whole.

Looking at the operation of the control unit 11, during the cooling operation of the air conditioner, the dew condensation condition determination unit 12 recognizes whether the dew condensation condition, if the dew condensation condition, dew condensation degree determination unit 13 Recognize the degree of dew formation through. At this time, the dew condensation degree determination unit 13 uses the indoor humidity difference and the indoor temperature difference for a predetermined time between the indoor humidity and the room temperature detected by the dew condensation degree through the indoor humidity detection unit 20 and the indoor temperature detection unit 21. It is determined that the dew condensation degree is lower as the indoor humidity difference and the indoor temperature difference are higher than the preset value for each, and the lower the condensation degree is determined as the dew point is higher.

Then, the control unit 11 through the compressor off time setting unit 14, the off time of the compressor 31 to the off time of the compressor 31 corresponding to the dew formation degree determined by the dew formation degree determination unit 13 Set. At this time, the control unit 11 increases the off time of the compressor 11 as the degree of dew formation increases, and shortens the off time of the compressor 11 as the degree of dew formation decreases, thereby effectively preventing dew condensation while reducing cooling performance excessively. Do not

Thereafter, on the basis of the off time of the compressor 11 set through the compressor off time setting unit 14, the dew condensation prevention operation of periodically driving the compressor 31 for a predetermined time is performed through the compressor driver 30. do. The controller 11 performs the dew condensation prevention operation for a predetermined time and then returns the compressor to the normal cooling operation. In this case, the predetermined time may be variable depending on the degree of dew formation, the longer the dew formation is longer, the lower the dew formation is reduced.

2A and 2B are control flow diagrams for explaining a method of controlling an dew condensation preventing device of an air conditioner according to an embodiment of the present invention. 2A and 2B, first, when power is applied to the air conditioner in step S100, the air conditioner is initialized.

In step S101, the control apparatus 10 determines whether the operation command and the cooling operation command are input from the user through the key input unit 22.

When the operation command and the cooling operation command are input as a result of the determination in step S101, in step S102, the control device 10 operates the compressor 31 and the indoor fan 41 through the compressor driver 30 and the fan driver 40, respectively. Turn on.

Accordingly, the indoor air is blown through the suction port to the heat exchanger inside the main body, and the blown indoor air is heat-exchanged in the heat exchanger by the refrigerant circulation by the action of the compressor 31, and the heat-exchanged cold air discharges the discharge port. It is discharged to the indoor side through.

In operation S103, the control apparatus 10 detects the indoor humidity H0 and the indoor temperature T0 through the indoor humidity detector 20 and the indoor temperature detector 21.

In order to determine whether dew is confined to the discharge port due to the difference between the air humidity discharged from the discharge port and the humidity of the indoor air sucked into the suction port, in step S104 the control device 10 determines the indoor humidity H0 detected in step S103. And a predetermined humidity (Hs) (humidity is likely to form dew on the discharge side) to determine whether the dew conditions.

If the indoor humidity H0 detected as a result of the determination in step S104 is not a dew condensation condition because it is lower than the preset humidity Hs, the control device 10 proceeds to step S116 of FIG. 2B to perform the present cooling operation. The compressor 31 is operated normally as it continues.

On the other hand, when the indoor humidity H0 detected as a result of the determination in step S104 is higher than the preset humidity Hs and is a dew condensation condition, the indoor humidity detection unit after the predetermined time has elapsed in steps S105 and S106. The indoor humidity H1 and the room temperature T1 are detected by the 20 and the room temperature detector 21.

In operation S107, the control apparatus 10 determines a humidity difference DH between the indoor humidity H0 and the room temperature T0 detected in the step S103 and the indoor humidity H1 and the room temperature T1 detected in the step S106. ) And the temperature difference (DT).

Then, the operation time of the compressor for preventing dew condensation of the compressor is set on the basis of the humidity difference DH and the temperature difference DT calculated in step S107 in steps S108 and S109, respectively, and the degree of dew condensation is determined. In this case, the controller 10 sets the operation time of the compressor to a preset time corresponding to the humidity difference DH and the temperature difference DT, and the preset time is set in advance by the humidity difference DH and the temperature difference DT. The larger the value is, the shorter it is. The smaller the value is, the longer the value is. In addition, the controller 10 determines the degree of dew condensation set in advance to correspond to the humidity difference DH and the temperature difference DT, and the predetermined dew condensation degree is determined by the humidity difference DH and the temperature difference ( The larger the DT), the less dew condensation. On the contrary, the smaller the humidity difference (DH) and the temperature difference (DT), the more dew condensation.

On the other hand, if it is determined in step S109 that the dew condensation degree is the lowest "low", the control device 10 in step S110 the preset time such that the dew condensation degree corresponds to "low" as the off time of the compressor As set, the first operation cycle of the compressor 31 is set.

In addition, if it is determined in step S109 that the dew condensation degree is "middle", the control device 10 sets the preset time such that the dew condensation degree corresponds to "medium" in step S111 as the off time of the compressor. As described above, the second operation cycle of the compressor 31 is set.

In addition, when it is determined in step S109 that the dew condensation degree is the highest "phase", in step S112, the controller 10 sets the preset time such that the dew condensation degree corresponds to "phase" as the off time of the compressor. As set, the third operation cycle of the compressor 31 is set.

For reference, the off time of the compressor 31 set in steps S110, S111, and S112 is set to be the longest when the degree of dew formation is "up", and the shortest when it is sequentially "low".

If the operation cycle of the compressor 31 suitable for the degree of dew condensation is set in step S110, S111 or S112, in step S113 the control device 10 is based on the operation cycle of the compressor 31 set in step S110, S111 or S112. Dew condensation prevention operation of the compressor 31 is performed during the operation time of the compressor 31 set in step S108 to prevent dew condensation.

When the dew condensation prevention operation of the compressor 31 is performed, the controller 10 counts the operating time of the compressor 31 in step S114 and then operates the compressor 31 set in step S108 and the time counted in step S115. When the time counted by comparing the time has passed the operation time of the compressor 31, the compressor 31 is returned to the normal operation which was the normal normal cooling operation in step S116, and the dew condensation prevention operation is completed.

As described in detail above, the present invention has the effect of performing a normal cooling operation after removing the humidity of the room air of the initial high temperature and high humidity by controlling the operation method with a constant speed type compressor to prevent dew condensation.

In addition, the present invention can simplify the control circuit and the control method, and lower the overall manufacturing cost than to configure the inverter variable displacement compressor.

In addition, the present invention has the effect of effectively preventing dew condensation while preventing the cooling performance of the air conditioner.

1 is a control block diagram of a dew condensation preventing device of an air conditioner according to an embodiment of the present invention.

2A and 2B are control flow diagrams for explaining a method of controlling an dew condensation preventing device of an air conditioner according to an embodiment of the present invention.

* Description of the code for the main functions of the drawings

10 control device 11 control unit

12: Dew condensation condition judgment section 13: Dew condensation degree judgment

14: compressor off time setting unit 20: indoor humidity detection unit

21: room temperature detection unit 22: key input unit

30: compressor driving unit 31: compressor

40: fan drive 41: indoor fan

Claims (12)

Compressor driving unit for turning on or off the compressor, An indoor humidity detection unit for detecting indoor humidity, It is determined whether the dew condensation condition according to the detected indoor humidity, and if the dew condensation condition, the dew condensation prevention of the air conditioner including a control device to prevent the dew condensation by periodically turning off the compressor by driving the compressor drive unit. Device. The apparatus of claim 1, wherein the dew condensation preventing device of the air conditioner includes an indoor temperature detection unit that detects an indoor temperature, and the control device varies an off time of the compressor based on the detected indoor humidity and an indoor temperature. Dew condensation prevention device of the air conditioner, characterized in that. According to claim 2, wherein the control device is dew dewing condition determination unit for determining whether the dew dewing condition according to the indoor humidity, and the indoor humidity difference between the respective indoor temperatures and room humidity detected with a predetermined time difference; Dew condensation degree determination unit for determining the degree of dew condensation based on the room temperature difference, Compressor off time setting unit for setting a predetermined time corresponding to the dew condensation degree to the off time of the compressor, and the dew condensation condition determination unit If it is determined through the dew condensation condition, the compressor off time setting unit to control the off time of the compressor to set the time corresponding to the dew condensation degree determined by the dew condensation degree determination unit, based on the set off time of the compressor Dew condensing room, characterized in that it comprises a control unit for periodically turning off the compressor as Device. The dew condensation degree determination unit is determined that the dew condensation degree is smaller as the indoor temperature difference and the indoor humidity difference is larger, and that the dew condensation degree is larger as the indoor temperature difference and the indoor humidity is smaller. Dew condensation prevention device of air conditioner. The dew point prevention of the air conditioner according to claim 3, wherein the control unit increases the off time of the compressor as the dew formation degree increases, and shortens the off time of the compressor as the dewage degree decreases. Device. The apparatus of claim 3, wherein the control unit periodically turns off the compressor for a time corresponding to the degree of dew formation. The apparatus of claim 6, wherein the control unit normally operates the compressor when a time corresponding to the degree of dew condensation has elapsed. The dew condensation preventing device of claim 1, wherein the compressor is a constant speed compressor. In the dew condensation prevention method of an air conditioner having a constant speed compressor, Detects humidity in the room, It is determined whether the dew condensation condition is based on the detected indoor humidity. If dew condensation conditions, dew condensation prevention method of the air conditioner, characterized in that to prevent the dew condensation by periodically turning off the compressor. 10. The method of claim 9, wherein the compressor is turned off according to the degree of dew condensation. 11. The method of claim 10, wherein the dew condensation detects the indoor humidity and room temperature with a predetermined time difference, and the indoor humidity difference and the room temperature based on the indoor humidity difference between the detected indoor humidity and the room temperature The method for preventing dew condensation of an air conditioner, characterized in that it is determined that the degree of dew condensation is smaller as the temperature difference is greater than a preset value for each, and the degree of dew condensation is larger as the temperature difference is smaller. 10. The method of claim 9, wherein the compressor is periodically turned off for a time determined according to the degree of dew formation.