KR101502096B1 - Control method of air conditioner - Google Patents

Abstract

The present invention relates to a control method of an air conditioner and, when the indoor humidity satisfies the reference indoor humidity, dehumidifying operation is performed based on a rather high reference temperature. If the indoor humidity does not satisfy the reference indoor humidity, The dehumidifying operation is performed in consideration of both the temperature and the humidity, so that both the temperature and the humidity are maintained in a comfortable state.

Dehumidification, humidity, air conditioning

Description

{CONTROL METHOD OF AIR CONDITIONER}

The present invention relates to a control method of an air conditioner, and more particularly, to a control method of a dehumidification operation of an air conditioner.

The air conditioner basically performs cooling of the air conditioning space, and in addition, performs a dehumidification operation to lower the humidity of the air conditioning space. The dehumidification operation of the air conditioner is performed in a similar manner to the cooling operation. That is, the refrigerant circulates in the basic cooling cycle composed of the compressor, the outdoor heat exchanger (condenser), the expansion device, and the indoor heat exchanger (evaporator), thereby cooling the air in the air conditioning space. When the air in the air conditioning space is cooled, the two loads of the sensible heat load and the latent heat load are eliminated. When the sensible heat load is removed, the air temperature in the air conditioning space is lowered, and when the latent heat load is removed, moisture in the air in the air conditioning space is removed. That is, both the temperature and the humidity of the air conditioning space are lowered by the dehumidifying operation.

A control method of an air conditioner according to the present invention includes: detecting indoor humidity; Performing a dehumidification operation based on a first temperature preset when the indoor humidity is higher than the reference indoor humidity; The dehumidifying operation is performed based on the second temperature that is set in advance when the indoor humidity is equal to or lower than the reference indoor humidity.

When the indoor humidity is higher than the reference indoor humidity and the indoor temperature is lower than the first temperature and when the indoor humidity is lower than the reference indoor humidity and the indoor temperature is lower than the second temperature, And stopping the operation of the indoor fan.

Also, the indoor humidity and the indoor temperature are monitored during the first set time period to determine whether the dehumidifying operation is necessary; And restarting the operation of the compressor and the indoor fan if it is determined that dehumidification operation is necessary.

In addition, when the first set time has elapsed, the indoor fan is operated for the second set time to circulate the indoor air. The above-described operation of the indoor fan is to rotate the indoor fan at a speed lower than the indoor fan rotational speed in the dehumidifying operation.

Further, it is possible to detect whether the dehumidifying operation is necessary by detecting the temperature and the humidity from the circulating indoor air during the second set time period, And restarting the operation of the compressor if it is determined that dehumidification operation is necessary.

The method further includes rotating the indoor fan at a speed necessary for dehumidifying operation together with restarting the operation of the compressor.

In addition, the first temperature may be set to a first temperature at a lower temperature of a temperature range in which a mean skin temperature of a human body in a reference room humidity is maintained at a constant value; The second temperature further includes setting the upper limit temperature of the temperature range in which the mean skin temperature of the human body at the reference room humidity is kept at a constant value to the second temperature.

Another control method of an air conditioner according to the present invention includes: receiving a user's desired reference room humidity from a user; Determine an allowable temperature range corresponding to the reference room humidity; Detecting indoor humidity; Dehumidifying operation is performed based on the lower limit (lower limit) temperature of the allowable temperature range when the indoor humidity is higher than the reference indoor humidity; The dehumidifying operation is performed based on the upper limit temperature of the allowable temperature range when the indoor humidity is equal to or lower than the target indoor humidity.

The above-described allowable temperature range is a temperature range in which a mean skin temperature of a human body in a reference room humidity inputted by the user is maintained at a constant value.

When the indoor humidity is higher than the reference indoor humidity and the indoor temperature is lower than the lower limit temperature of the allowable temperature range and when the indoor humidity is lower than the reference indoor humidity and the indoor temperature is lower than the upper limit temperature of the allowable temperature range, And stopping the operation of the compressor and the indoor fan for a set time.

In addition, when the first set time has elapsed, the indoor fan is operated for the second set time to circulate the indoor air.

Another control method of an air conditioner according to the present invention includes: receiving a user's desired reference room humidity from a user; Receives a user's desired reference temperature range from the user; Detecting indoor humidity; Dehumidifying operation is performed based on the lower limit (lower limit) temperature of the reference temperature range when the indoor humidity is higher than the reference indoor humidity; The dehumidification operation is performed based on the upper limit temperature of the reference temperature range when the indoor humidity is equal to or lower than the target indoor humidity.

When the indoor humidity is higher than the reference indoor humidity and the indoor temperature is lower than the lower limit temperature of the reference temperature range and when the indoor humidity is lower than the reference room humidity and the indoor temperature is lower than the upper limit temperature of the reference temperature range, And stopping the operation of the compressor and the indoor fan for a set time.

In addition, when the first set time has elapsed, the indoor fan is operated for the second set time to circulate the indoor air.

The humidity controlled by the dehumidification operation of the air conditioner is the relative humidity, which is defined as the ratio of the present water vapor amount to the saturated water vapor amount of the present temperature. A suitable relative humidity range for human activity is known to be about 40-60%. Therefore, the temperatures may be different even at the same relative humidity.

Therefore, when the dehumidification operation is performed based on the humidity, the temperature may become lower or higher than necessary. Conversely, if the dehumidifying operation is performed based on the temperature, the humidity may be lowered or increased more than necessary.

The control method of an air conditioner according to the present invention is intended to maintain both a temperature and a humidity in a comfortable state by performing dehumidification operation in consideration of both temperature and humidity.

A preferred embodiment of the present invention will now be described with reference to FIGS. 1 to 5. FIG. 1 is a view illustrating a cooling cycle of an air conditioner according to an embodiment of the present invention. As shown in Fig. 1,

The outdoor unit 102 and the indoor unit 104 are connected to each other through the liquid refrigerant pipe 106a and the gas refrigerant pipe 106b in the air conditioner 100 according to an embodiment of the present invention to form one cooling cycle . The compressor (108) provided in the outdoor unit (102) compresses the refrigerant into a high - temperature and high - pressure gas state. The outdoor heat exchanger 110 receives the high-temperature high-pressure gas refrigerant discharged from the compressor 108 and exchanges heat with outdoor air. The outdoor fan 112 forcibly blows outdoor air to heat exchange between the outdoor air and the high-temperature refrigerant in the outdoor heat exchanger (condenser) 110. The refrigerant at high temperature and high pressure in the outdoor unit 102 is expanded (decompressed) by the expansion device 114 to be easily evaporated and supplied to the indoor unit 104. The outdoor unit 102 is provided with an outdoor temperature sensor 115 for detecting the outdoor temperature.

An indoor heat exchanger (evaporator) 116 is installed in the indoor unit 104. The indoor fan 118 forcibly circulates the indoor air through the indoor heat exchanger 116 so that heat exchange is performed between the refrigerant of the indoor heat exchanger 116 and the indoor air.

In the indoor unit 104, a room temperature sensor 120 and an indoor humidity sensor 122 are installed where indoor air is sucked. The indoor temperature sensor 120 detects the temperature of the air in the air conditioning space, that is, the temperature of the air flowing into the indoor unit 104 in the air conditioning space. The indoor humidity sensor 122 detects the humidity of the air conditioning space, that is, the relative humidity in the air flowing into the indoor unit 104 in the air conditioning space.

Fig. 2 is a view showing a control system of the air conditioner shown in Fig. 1. Fig. 2, the control unit 202 of the outdoor unit 102 receives the outdoor temperature from the outdoor temperature sensor 115 connected to the input side, and uses the outdoor temperature for cooling operation. The storage unit 204, which is electrically connected to the control unit 202 for communication, stores system software necessary for the control unit 202 to control the overall operation of the air conditioner 100. (For example, 50%) and the reference temperature (first temperature (22 占 폚) and second temperature (26 占 폚)) necessary for dehumidifying operation. The outdoor fan 112 and the compressor 108 are connected to the output side of the control unit 202.

The indoor unit 104 is provided with a display unit 206 and an input unit 206 together with the indoor temperature sensor 120 and the indoor humidity sensor 122 shown in FIG. The display unit 206 displays operational status information of the air conditioner 100, a user input request message, and the like. The input unit 208 allows a user who resides in the air conditioning space to generate an operation command or set (input) a set value or the like. Commands or set values inputted through the input unit 208 of the indoor unit 104 are transmitted to the control unit 202 of the outdoor unit 102. [

3 is a view illustrating a control method of an air conditioner according to an embodiment of the present invention. 3, when the dehumidifying operation command is received through the input unit 208 of the indoor unit 104, the compressor 108 and the indoor fan 118 are operated for dehumidifying operation (302). Of course, the outdoor fan 112 also operates together for the operation of the outdoor unit 102. The control unit 202 initializes the thermo-off time t_off while starting the dehumidification operation. The thermo-off time t_off is a time at which the operation of the compressor 108 is stopped due to the dehumidifying operation, in which one of the humidity and the temperature reaches a desired level. When the dehumidification operation is started, the compressor 108 and the indoor fan 118 are operated to cool the air conditioning space (306) to lower the humidity of the air conditioning space to below the reference room humidity (for example, 50%).

When the humidity of the air-conditioned space is higher than the reference room humidity of 50% and the reference room humidity is not satisfied (No in 306), the indoor temperature of the air-conditioned space is also higher than the first temperature (22 ° C) (No in 308), the compressor 108 and the indoor fan 118 are continuously operated to further perform the dehumidifying operation, thereby further lowering the humidity and the temperature of the air conditioning space. If the humidity of the air conditioning space is still higher than the reference room humidity (50%) (No in 306) and the room temperature in the air conditioning space is lowered to the first temperature (22 ° C) The compressor 108 and the indoor fan 118 are operated to prevent the indoor temperature of the air conditioning space from excessively lowering below the first temperature 22 ° C even if the indoor humidity of the air conditioning space does not satisfy the target reference indoor humidity. (Thermo-off) (312). When the compressor 108 and the indoor fan 118 are stopped, the thermo-off time t_off from the moment is counted.

In contrast, when the humidity of the air-conditioning space is lowered to 50% or less of the reference room humidity and the reference room humidity is satisfied (306), if the room temperature of the air-conditioning space is higher than the second reference temperature (26 ° C) 310) Even though the humidity of the air conditioning space satisfies the reference room humidity, the compressor 108 and the indoor fan 118 are further operated to further lower the room temperature of the air conditioning space. Even if the humidity of the air conditioning space is lower than the reference room humidity (50%), the user can still feel comfortable. Therefore, even if the humidity is slightly lower than 50%, the room temperature becomes the second temperature (26 DEG C) or lower. If the humidity of the air conditioning space is higher than the reference room humidity of 50% (No in 306), if the room temperature in the air conditioning space falls below the second temperature (26 ° C) (Yes in 310) Thereby stopping (thermo-off) the compressor 108 and the indoor fan 118 (312). When the compressor 108 and the indoor fan 118 are stopped, the thermo-off time t_off from the moment is counted.

That is, when the indoor humidity does not satisfy the reference room humidity, the target indoor temperature is lowered to the lower limit temperature of the allowable temperature range (for example, 22 ° C) as much as possible, and the room temperature is not lowered below the lower limit temperature. Also, even if the indoor humidity satisfies the reference room humidity, the indoor temperature is prevented from becoming higher than the upper limit temperature (for example, 26 DEG C) of the allowable temperature range.

After the thermo-off, the thermo-off time t_off is counted, and when both the compressor 108 and the indoor fan 118 are stopped for the first predetermined time t1, And monitors whether the room temperature is out of the room (314). If the indoor humidity satisfies the reference room humidity and the room temperature exceeds the second temperature which is the upper limit temperature of the allowable temperature range in the state where the thermo-off time t_off has not elapsed by the first set time t1 (No in 314) (No in 310), if the room humidity does not satisfy the reference room humidity and the room temperature exceeds the first temperature which is the lower limit temperature of the allowable temperature range (No in 308), the dehumidifying operation is repeated again. Stopping both the compressor 108 and the indoor fan 118 during the first set time t1 after the thermo-off is to stop the water formed around the indoor heat exchanger 116 by the operation of the indoor fan 118 Thereby preventing the humidity from rising.

Alternatively, if the indoor humidity satisfies the reference room humidity until the first set time t1 elapses after the thermo-off and the room temperature is lower than the second temperature that is the upper limit temperature of the allowable temperature range (YES in 310) The compressor 108 is still in the stopped state if the indoor temperature does not satisfy the reference indoor humidity and the indoor temperature is equal to or lower than the first temperature which is the lower limit temperature of the allowable temperature range (example of 308) (316) is operated at a lower speed than the rotational speed in the dehumidifying operation. If the indoor humidity satisfies the reference room humidity and the indoor temperature is within the allowable temperature range (t2) in the state in which the thermo-off time t_off has not elapsed by the sum of the first set time t1 and the second set time t2 If the room humidity does not satisfy the reference room humidity and the room temperature exceeds the first temperature which is the lower limit temperature of the allowable temperature range (NO in 308) or exceeds the second temperature which is the upper limit temperature of the range (NO in 310) 302, and 304 are repeated. The operation of the indoor fan 118 at a low speed for the second set time t2 is intended to allow indoor air to circulate through the indoor unit 104 to enable more accurate detection of room humidity and room temperature.

If the dehumidifying operation stop command is not received so that the thermo-off time t_off elapses by t1 + t2 (No in 320), the indoor fan 118 is stopped (322) and the thermo-off time t_off is initialized The dehumidifying operation of 306, 308 and 310 is repeated. When a dehumidification operation stop command is received (YES in step 320), the dehumidification operation is terminated.

4 is a view illustrating a control method of an air conditioner according to another embodiment of the present invention. 4, when a dehumidifying operation command is received (402) through the input unit 208 of the indoor unit 104, the user receives the reference room humidity, that is, the room humidity desired by the user (404). The reception of the reference indoor humidity is performed by asking the user for desired indoor humidity through the display unit 206 of the indoor unit 104 and inducing the user to input the desired indoor humidity through the input unit 208. [

The control unit 202 determines an allowable temperature range corresponding to the reference room humidity, that is, an upper limit temperature and a lower limit temperature (406). The controller 202 determines a mean skin temperature (MST) range in which the user can feel comfortable in the reference room humidity as the allowable temperature range. To this end, data on the average skin temperature range, which can feel comfort corresponding to indoor humidity, is stored in advance in the storage unit 204 of the outdoor unit 102, and the control unit 202 controls the storage unit 204 The allowable temperature range is determined by referring to the stored data. For example, when the humidity of the reference room inputted by the user is 65% and the corresponding allowable temperature range is 22.1-29.4 캜, the first temperature is 22.1 캜, which is the lower limit temperature, and the second temperature is 29.4 캜, which is the upper limit temperature .

When the allowable temperature range is determined, the control unit 202 sets the lower limit temperature of the average skin temperature (MST) range to the first temperature and the upper limit temperature of the average skin temperature (MST) range to the second temperature (408) . The first temperature and the second temperature correspond to the first temperature and the second temperature used in 308 and 310 of FIG. 3 described above. That is, the control unit 202 applies the reference room humidity received from the user and the target temperature range (first and second temperatures) determined to correspond to the reference room humidity to the control method of FIG. 3, A control method of the air conditioner is performed (410). In this manner, the humidity of the reference room is directly received from the user and the dehumidification operation of the air conditioner is performed so as to follow the reference room humidity, thereby realizing the humidity environment required by the user and providing the humidity environment to the user.

5 is a diagram illustrating a control method of an air conditioner according to another embodiment of the present invention. 5, when a dehumidifying operation command is received (502) through the input unit 208 of the indoor unit 104, the user receives the reference room humidity, i.e., the room humidity desired by the user (504). Also, an acceptable temperature range, that is, a user-desired reference temperature range is received from the user (506). The reception of the reference room humidity and the reference temperature range is carried out through the display unit 206 of the indoor unit 104. The user then inputs the desired room humidity and the room temperature range through the input unit 208 .

When the reference temperature range is determined, the control unit 202 sets the lower limit temperature of the reference temperature range to the first temperature and sets the upper limit temperature of the reference temperature range to the second temperature (508). The first temperature and the second temperature correspond to the first temperature and the second temperature used in 308 and 310 of FIG. 3 described above. That is, the control unit 202 applies the reference room humidity received from the user and the reference temperature range (first and second temperatures) determined to correspond to the reference room humidity to the control method of FIG. 3, A control method of the air conditioner is performed (510). In this manner, the user directly receives the reference room humidity and the reference temperature range, and performs dehumidification operation of the air conditioner so as to follow the reference room humidity and the reference room temperature, thereby realizing the humidity and temperature environment required by the user do.

1 shows a cooling cycle of an air conditioner according to an embodiment of the present invention.

Fig. 2 is a view showing a control system of the air conditioner shown in Fig. 1. Fig.

3 shows a control method of an air conditioner according to an embodiment of the present invention.

4 is a view illustrating a control method of an air conditioner according to another embodiment of the present invention.

5 is a view illustrating a control method of an air conditioner according to another embodiment of the present invention.

Description of the Related Art [0002]

100: air conditioner

102: outdoor unit

104: indoor unit

106a, 106b: refrigerant tube

108: Compressor

110; Outdoor heat exchanger

112: outdoor fan

114: expansion device

115: Outdoor temperature sensor

116: Indoor heat exchanger

118: Indoor fan

120: Room temperature sensor

122: Indoor humidity sensor

Claims (15)

Detecting indoor humidity; Performing a dehumidification operation based on a first temperature preset when the indoor humidity is higher than the reference indoor humidity; Wherein the dehumidifying operation is performed based on a second temperature that is set in advance when the indoor humidity is equal to or lower than the reference indoor humidity. The method according to claim 1, When the indoor humidity is higher than the reference indoor humidity and the indoor temperature is lower than the first temperature and when the indoor humidity is lower than the reference indoor humidity and the indoor temperature is lower than the second temperature, And stopping the operation of the compressor and the indoor fan for a predetermined period of time. 3. The method of claim 2, Monitoring the room humidity and the room temperature during the first predetermined time period to determine whether the dehumidifying operation is necessary; And restarting the operation of the compressor and the indoor fan if it is determined that the dehumidifying operation is necessary. 3. The method of claim 2, And when the first set time has elapsed, operating the indoor fan for a second set time to circulate indoor air. 5. The method of claim 4, Wherein the operation of the indoor fan is to rotate the indoor fan at a speed lower than the indoor fan rotational speed in the dehumidifying operation. 5. The method of claim 4, Determining whether the dehumidifying operation is necessary by detecting temperature and humidity from the circulating indoor air during the second set time; And restarting the operation of the compressor if it is determined that the dehumidifying operation is necessary. The method according to claim 6, Further comprising rotating the indoor fan at a speed necessary for the dehumidifying operation with restarting the operation of the compressor. The method according to claim 1, Setting the first temperature to a lower limit temperature of a temperature range in which the mean skin temperature of the human body in the reference room humidity is maintained at a constant value; And setting the second temperature to an upper limit temperature in a temperature range in which the mean skin temperature of the human body in the reference room humidity is maintained at a constant value, Way. Receiving a user-desired reference room humidity from a user; Determining an allowable temperature range corresponding to the reference room humidity; Detecting indoor humidity; Performing a dehumidification operation based on a lower limit (lower limit) temperature of the allowable temperature range when the indoor humidity is higher than the reference indoor humidity; Wherein the dehumidifying operation is performed based on an upper limit temperature of the allowable temperature range when the indoor humidity is equal to or lower than the target indoor humidity. 10. The method of claim 9, Wherein the allowable temperature range is a temperature range in which the mean skin temperature of the human body in the reference room humidity input by the user is maintained at a constant value. 10. The method of claim 9, Wherein the indoor humidity is higher than the reference indoor humidity and the indoor temperature is lower than the lower limit temperature of the allowable temperature range and a condition that the indoor humidity is lower than the reference indoor humidity and the indoor temperature is lower than the upper limit temperature of the allowable temperature range And stopping the operation of the compressor and the indoor fan during the first set time when the satisfaction of the condition is satisfied. 12. The method of claim 11, And when the first set time has elapsed, operating the indoor fan for a second set time to circulate indoor air. Receiving a user-desired reference room humidity from a user; Receives a user's desired reference temperature range from the user; Detecting indoor humidity; Performing a dehumidification operation based on a lower limit (lower limit) temperature of the reference temperature range when the indoor humidity is higher than the reference indoor humidity; And the dehumidifying operation is performed based on the upper limit temperature of the reference temperature range when the indoor humidity is equal to or lower than the target indoor humidity. 14. The method of claim 13, Wherein the indoor humidity is higher than the reference indoor humidity and the indoor temperature is lower than the lower limit temperature of the reference temperature range and a condition that the indoor humidity is lower than the reference indoor humidity and the indoor temperature is lower than the upper limit temperature of the reference temperature range And stopping the operation of the compressor and the indoor fan during the first set time when the satisfaction of the condition is satisfied. 15. The method of claim 14, And when the first set time has elapsed, operating the indoor fan for a second set time to circulate indoor air.

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