JP2004020118A - Control method for air conditioning machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform a cleaning operation by ozone after setting the state of the indoor unit inside to a low temperature and a low humidity to prevent the decomposition of the ozone. <P>SOLUTION: When the ozone is generated from an electric dust collecting part 7 and a minus ion generating part 8 to perform the cleaning operation of sterilizing and deodorizing the indoor unit inside, this air conditioning machine allows a temperature sensor 9 and a humidity sensor 10 to detect the room temperature and the room inside humidity, and calculates a dew-point Td to perform a cooling operation. Also, this machine detects and monitors the indoor heat exchange temperature Tn by an indoor heat exchange temperature sensor 11, completes the cooling operation before the indoor heat exchange temperature Tn becomes the dew-point Td or below, and after the inside state of the indoor unit is set to the low temperature/low humidity, executes a specified first and a second cleaning operation. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method for controlling an air conditioner, and more particularly, to a method for controlling an air conditioner in a clean operation in which sterilization and deodorization of an interior of an indoor unit is performed using ozone.
[0002]
[Prior art]
In the field of recent air conditioners, those pursuing comfort by adding various functions have been proposed. As an example, an electric precipitator (electric air purifying unit) is installed in an indoor unit, and fine dust such as cigarette smoke is charged at a high voltage to collect dust, collect air dirt, and improve the indoor environment. There is something to try.
[0003]
By the way, when a cooling operation or a dry operation (weak cooling operation) is performed, condensed water adheres to the indoor heat exchanger, and the condensed water is discharged outside through a drain pan. May remain in indoor heat exchangers and drain pans.
[0004]
If dust or the like adheres to the residual condensed water, germs such as mold will propagate inside the indoor unit, and an unpleasant odor will be generated. In order to suppress the unpleasant odor, ozone is generated by an electrostatic precipitator to sterilize the interior of the indoor unit.If condensed water is left in the indoor heat exchanger or drain pan, sterilization with ozone is performed. The deodorizing effect may be reduced.
[0005]
[Problems to be solved by the invention]
Therefore, a drying operation for drying the inside of the indoor unit is performed before performing the clean operation. However, since the drying operation is substantially a heating operation, ozone is easily decomposed inside the indoor unit immediately after the drying operation. High temperature and high humidity.
[0006]
Therefore, if the operation is shifted to the clean operation in a high-temperature and high-humidity state, the ozone is decomposed before it sufficiently reaches the inside of the indoor unit, and there is a problem that sterilization and deodorization are not effectively performed.
[0007]
Therefore, an object of the present invention is to perform a clean operation using ozone after setting the inside of the indoor unit to a low temperature and low humidity state, thereby sufficiently dispersing ozone to the inside of the indoor unit to reliably perform sterilization and deodorization. Is to be able to do it.
[0008]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides an air inlet including at least a front air inlet having an open / close panel and a normally open air inlet, and an air outlet provided at a position below the front air inlet. An indoor unit housing in which a heat exchanger and an indoor blower fan are arranged is provided in an air passage to be connected, and an electrostatic precipitator is arranged between the normally open air intake port and the heat exchanger. In addition to a negative ion generator is disposed, and has an auxiliary opening and closing panel that can form a short circuit of air between the front air inlet and the air outlet, air capable of clean operation with ozone In the control method of the harmony device, at the time of the clean operation, the room temperature and the indoor humidity (phase humidity) are detected by the room temperature sensor and the humidity sensor disposed in the indoor unit housing. Humidity), the dew point temperature Td is calculated from the room temperature and the indoor humidity, and then the cooling operation is started. The indoor heat exchange temperature Tn is detected by using the indoor heat exchange temperature sensor, and the indoor heat exchange temperature Tn is detected. After the cooling operation is completed before the temperature becomes equal to or lower than the dew point temperature Td, the indoor blower fan is closed in a state where ozone is generated from the electric dust collector by closing the open / close panel and opening the auxiliary open / close panel. A first clean mode for continuously or intermittently rotating positively for a predetermined time is executed, and thereafter, both the open / close panel and the auxiliary open / close panel are closed, and the ozone is generated by the negative ion generator. A second clean mode in which the indoor fan is continuously or intermittently rotated for a predetermined time in reverse is executed.
[0009]
According to this configuration, since the inside of the indoor unit is set to a low temperature and low humidity before the clean operation, the ozone is not decomposed, but spreads to the inside of the indoor unit, and the ozone is mainly used for the front side of the indoor unit main body. The heat exchanger and indoor blower fan are sterilized to remove mold and the like that cause odor.
[0010]
In the first clean mode, ozone is generated by the electric precipitator to rotate the indoor blower fan forward (in a direction in which air flows from the inlet to the outlet), and in the second clean mode, the indoor blower fan is turned on. Reverse rotation (in the direction in which air flows from the outlet to the inlet) and ozone is also generated by the negative ion generator, so that the ozone mainly causes the air passage on the air inlet side, the indoor blower fan, and the rear side. The heat exchanger and the like are sterilized.
[0011]
In the first clean mode, a short circuit of air is formed between the outlet and the suction port provided by the auxiliary open / close panel, with the upper and lower wind direction plates provided in the air outlet facing the auxiliary open / close panel. As a result, ozone is less likely to leak into the room, the use efficiency of ozone is improved, and the drain pan near the auxiliary opening / closing panel is also effectively sterilized.
[0012]
The clean operation may be performed in the cooling mode or the heating mode, but from the viewpoint of energy saving, the first clean mode and the second clean mode are preferably performed in the air blowing mode.
[0013]
It is preferable that the heating operation is performed for a predetermined time before the cooling operation is performed to dry the inside of the indoor unit. As a result, when the clean operation is performed, the interior of the indoor unit is dried and almost no moisture lowering the sterilizing effect of ozone is almost eliminated. Therefore, the sterilizing by ozone generated by the electric dust collecting unit and the negative ion generating unit is effective. It is done on a regular basis.
[0014]
At the time of the drying operation in the heating mode, the opening and closing panel and the auxiliary opening and closing panel may be opened, and the upper and lower wind direction boards may be in a horizontal state. According to this, the inside of the indoor unit is dried quickly, and the total clean operation time related to sterilization and the like inside the indoor unit can be shortened.
[0015]
Further, when the clean operation is selected during the operation in the predetermined operation mode, it is preferable that the air conditioner be returned to the operation mode immediately before the clean operation after the clean operation is completed. According to this, it is not necessary for the user to operate the remote controller again after the end of the clean operation, and it is not necessary to remember the setting state of the operation mode immediately before the clean operation.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a schematic diagram schematically showing a configuration of an indoor unit of an air conditioner according to the present invention, and FIG. 2 is a block diagram schematically showing a control system of the air conditioner.
[0017]
According to this, the air conditioner includes a control circuit 1 on the indoor unit side and a control circuit 2 on the outdoor unit side. Each of the control circuits 1 and 2 is composed of, for example, a microcomputer and performs control necessary for room temperature control as a basic operation.
[0018]
On the other hand, at the time of the clean operation, after performing the drying operation inside the indoor unit, the room temperature and the indoor humidity are detected, the dew point temperature Td is calculated based thereon, the cooling operation is started, and the indoor heat exchange temperature Tn is set. The cooling operation is ended before the heat exchange temperature Tn becomes equal to or lower than the dew point temperature Td (preferably, the cooling operation is performed until the indoor heat exchange temperature Tn becomes lower than a predetermined value (Td + 2 ° C.)). Make the inside low temperature and low humidity.
[0019]
Thereafter, the electric air purifying unit is energized to generate ozone, and the interior unit is sterilized and deodorized in a first clean mode. Ozone is also generated by the negative ion generating unit to generate ozone. Is operated in a second clean mode for sterilizing and deodorizing.
[0020]
In this embodiment, the indoor unit is a wall-mounted type, and has an air inlet formed from the front surface to the upper surface of the housing, and the air inlet on the front surface of the housing is provided with a front opening / closing panel 3a. A multi-panel (auxiliary opening / closing panel) 3b is provided below the front opening / closing panel 3a and near the air outlet.
[0021]
The multi-panel 3b forms a short circuit in which the lower end side is opened with the upper end side as a base point and the air blown out from the air outlet is returned to the interior of the indoor unit. At the top of the front panel 3a and on the upper surface of the indoor unit, there are provided normally open air intake ports 3c and 3d having no open / close panel.
[0022]
An air outlet is provided below the indoor unit housing, and inside the housing, an upper and lower wind direction plate portion 4 for changing the air blowing direction in the vertical direction, and a left and right wind direction plate (not shown) for changing the air blowing direction in the left and right direction. Is provided.
[0023]
Further, in the air passage connecting the air inlet and the air outlet of the indoor unit, the indoor heat exchangers 5a, 5b, 5c of a Λ (lambda) type from the back side to the front side of the housing, and forward and reverse rotations. An indoor blower fan 6 composed of a possible cross flow fan is arranged.
[0024]
An electric dust collector 7 as an electric air cleaning unit is disposed in front of the indoor heat exchanger 5b on the back of the air inlet 3c of the normally open air inlets 3c and 3d. In addition, a negative ion generator 8 for causing the blown air to contain negative ions is disposed near the air outlet.
[0025]
A room temperature sensor 9 for detecting room temperature and a humidity sensor 10 for detecting indoor humidity are provided inside the indoor unit. In this example, the room temperature sensor 9 and the humidity sensor 10 are provided on the back side of the air inlet 3c, but their positions can be arbitrarily selected. Further, among the indoor heat exchangers 5a, 5b, 5c, for example, an indoor heat exchange temperature sensor 11 is disposed at a refrigerant inlet of the indoor heat exchanger 5b.
[0026]
As another configuration of the indoor unit, a receiving section for receiving a remote control signal from the remote control 12 and a main body display section 13 for displaying an operation state are provided on the front side of the housing. A drain pan 14 for receiving condensed water dropped from the heat exchanger 5c and discharging the condensed water to the outside of the room is provided below the indoor heat exchanger 5c.
[0027]
Although not shown, a drain pan is also provided below the indoor heat exchanger 5a. Note that the outdoor unit is provided with a four-way valve 15 and a compressor 16, which constitute a refrigeration cycle together with the indoor heat exchangers 5a, 5b, 5c, and an outdoor blower fan 17.
[0028]
The control circuit 1 of the indoor unit controls the open / close panel 3a, the multi-panel 3b, the up-down air direction plate unit 4, the indoor blower fan 6, and the like in accordance with the setting operation of the remote controller 12, while the compression according to the difference between the room temperature and the set temperature. It transmits the operation code of the unit to the control circuit 2 of the outdoor unit, transmits and receives signals necessary for controlling the room temperature to and from the control circuit 2, and collects electricity according to the setting operation of the remote controller 12. The dust part 7 and the negative ion generator 8 are controlled.
[0029]
Therefore, the control circuit 1 includes a determination unit 1a for determining a remote control signal and a state determination unit 1c for determining an operation state of the air conditioner, a timer 1b, a storage unit 1d, The air conditioner includes a counter 1e, a rotation speed detector 1f for detecting the rotation speed of the indoor blower fan 6, and a dew point temperature calculator 1g for calculating a dew point temperature Td from room temperature and room humidity (relative humidity).
[0030]
Further, the control circuit 2 of the outdoor unit includes an operation mode determination unit 2 a for determining an operation mode from the indoor unit side for controlling the four-way valve 15 and the outdoor blower fan 17, and a compressor control for controlling the compressor 16. 2b.
[0031]
Next, the operation of the present invention will be described with reference to the flowcharts of FIGS. First, when a predetermined setting operation is performed by the remote controller 12, the control circuit 1 on the indoor unit side and the control circuit 2 on the outdoor unit side perform necessary control for room temperature control according to the setting operation, or perform such control as room temperature control. To stop the operation.
[0032]
In the operation, the control circuit 1 automatically controls the opening and closing of the open / close panel 3a and the multi-panel 3b in accordance with the operation mode of the setting operation, automatically controls the direction of the vertical wind direction plate portion 4, and controls the rotation of the indoor blower fan 6. In addition, it controls the electric dust collector 7 and the negative ion generator 8.
[0033]
When the clean operation signal transmitted from the remote controller 12 is received while the operation is being performed or the operation is stopped as described above, the control circuit 1 executes the routine shown in FIGS. . Note that the timer time, the number of revolutions of the indoor blower fan and the compressor in the following description are merely examples.
[0034]
In this clean operation routine, first, a three-minute timer of the timer 1b is started (step ST1), the operation mode is switched to heating, the operation code 0 of the compressor 16 (rotation speed 0 rps) is transmitted, and the indoor blower fan 6 is operated. The fan rotation speed is set to 900 rpm, the air flow is slightly lower, the open / close panel 3 a is fully opened, the multi-panel 3 b is opened, the upper and lower wind direction plates 4 are set in the horizontal direction, and the display of the clean operation is displayed on the main body display 11. (Step ST2). In this case, on the outdoor unit side, the heating operation is determined by the operation mode determination unit 2a, and at least the four-way valve 15 is switched to the heating cycle.
[0035]
The heating operation with the compressor 16 stopped (that is, an operation close to a warm air blowing operation) is maintained for 3 minutes to perform a drying operation inside the indoor unit. Since the indoor blower fan 6 is a weaker blower, the indoor environment does not deteriorate.
[0036]
When the 3-minute timer times out, the process proceeds from step ST3 to step ST4, and the heating 0 code transmission counter of the counter unit 1e is incremented (+1 is added to the count value). In this case, since it is the first heating 0 code transmission, the heating 0 code transmission counter becomes 1.
[0037]
Subsequently, it is determined whether or not the value of the heating 0 code transmission counter is a predetermined value (for example, 4) (step ST5). If the counter value is not 4, the 2-minute timer of the timer 1b is started (step ST6), the operation mode is set to heating, the operation code of the compressor 16 is set to 8 (rotation speed 39 rps), and the fan of the indoor blower fan 6 is turned on. The number of revolutions is set to 900 rpm (step ST7). Also in this case, on the outdoor unit side, the compressor control unit 2b controls the compressor 16 to a rotational speed of 39 rps, and the operation of the compressor 16 controls the rotation of the outdoor fan unit 17.
[0038]
It is determined whether or not the two-minute timer has timed out (step ST8), and the time-up returns to step ST1 to repeat the above-described processing. As described above, the heating operation close to the air blowing operation with the compressor 16 being operated at 0 code is performed for 3 minutes, and then the weak heating operation with the compressor 16 being operated at 8 code is performed for 2 minutes. Is performed at least three times in succession, the inside of the indoor unit can be sufficiently dried. For example, even if condensed water is accumulated in the drain pan 14, the condensed water is evaporated to dry the inside of the indoor unit. Can be.
[0039]
When the value of the heating 0 code transmission counter becomes 4, the process proceeds from step ST5 to step ST9, where the room temperature is detected by the detection signal from the room temperature sensor 9 and the humidity is detected by the detection signal from the humidity sensor 10, and the room temperature and the room temperature are detected. Humidity is regarded as the temperature and humidity inside the indoor unit.
[0040]
Next, the dew point temperature (dew point temperature of the air inside the indoor unit) Td is calculated by the dew point temperature calculation unit 1g based on the room temperature and the humidity (step ST10). For example, the dew point temperature Td is obtained in advance in the form of a table in which the temperature of the air inside the indoor unit and the saturated vapor pressure are determined and stored in a table format, and the saturated vapor pressure at the detected room temperature is obtained from the table. Is multiplied to calculate the saturated vapor pressure at the dew point, and the temperature corresponding to the calculated saturated vapor pressure is obtained by reversely subtracting from the above table.
[0041]
Then, in step ST11, the operation mode is set to the cooling mode, the operation code 3 of the compressor 16 (22 rpm) is transmitted, and the fan rotation speed of the indoor blower fan 6 is set to 480 rpm, which is extremely low (super low). The open / close panel 3a is fully closed, the multi-panel 3b is open, the vertical wind direction plate 4 is directed upward, and the electric dust collector 7 and the negative ion generator 8 are turned off. The main display unit 11 keeps displaying the clean operation.
[0042]
One minute after the start of the cooling operation (step ST12), the indoor heat exchange temperature Td is detected by the detection signal from the indoor heat exchange temperature sensor 11 (step ST13), and the indoor heat exchange temperature Tn is dew point temperature Td + 2 ° C. It is determined whether it is less than (Step ST14). If the indoor heat exchange temperature Tn is higher than Td + 2 ° C., the cooling operation is continued, and monitoring is performed until the indoor heat exchange temperature Tn becomes lower than Td + 2 ° C.
[0043]
When the indoor heat exchange temperature Tn is lower than Td + 2 ° C. (when Td <Tn <Td + 2 ° C.), the condition is such that dew condensation occurs in the indoor heat exchangers 5a, 5b, 5c, and the cooling operation is stopped (step ST15). In this way, by performing the weak cooling operation and setting the interior of the indoor unit to low temperature and low humidity in advance, the sterilization and deodorization effects in the clean operation described later can be improved.
[0044]
After stopping the cooling operation, the first clean mode operation is started in the next step ST16. In the first clean mode operation, the operation mode is determined to be air blowing, the open / close panel 3a is fully closed, the multi-panel 3b is open, the upper and lower wind direction plates 4 are upward, the electric dust collector 7 is on, and the negative ion The generator 8 is turned off.
[0045]
While operating in this state, the 10-minute timer of the timer 1b is started (step ST17), and the indoor blower fan 6 is operated for 5 seconds, and is rotated at 600 rpm forward (step ST18). Is turned off for one minute (step ST19). Until the 10-minute timer expires, the indoor fan 6 is repeatedly operated for 5 seconds and stopped for 1 minute (step ST20).
[0046]
By this first clean operation, the ozone generated by the energization of the electric dust collection unit 7 is surely spread to all corners inside the indoor unit in which the front opening / closing panel 3a is closed and is almost closed. In this case, since the inside of the indoor unit is previously set to the low temperature and low humidity state, ozone does not decompose before reaching the inside of the indoor unit.
[0047]
Further, since the multi-panel 3b is in the open state, the leaked ozone is sucked into the interior of the indoor unit by the short circuit action, and the sterilization and deodorization of the interior of the indoor unit are performed efficiently and effectively.
[0048]
Subsequently, when the time of the 10-minute timer expires, the process proceeds from step ST20 to step ST21 to enter the second clean operation. In the second clean operation, the indoor blower fan 6 is stopped, the negative ion generator 8 is turned on to generate ozone, and the multi-panel 3b is also closed. In addition, the electric dust collection unit 7 is kept on.
[0049]
In the second clean operation, first, a 10-minute timer of the timer 1b is started (step ST22), and the rotation speed of the indoor blower fan is detected by the rotation speed detection unit 1f, and it is determined whether or not the rotation speed is 0 rpm. (Step ST23). In this case, the rotation speed may be detected by a detection signal from a position sensor of the indoor fan 6.
[0050]
When the number of revolutions of the indoor blower fan 6 becomes 0 rpm, it waits for one second (step ST24), and then rotates the indoor blower fan 6 reversely (in the air suction direction), and sets the reverse rotational speed to about 920 rpm (step ST25). ). The reason why these steps are taken is that if the indoor blower fan 6 tries to rotate in the reverse direction without completely stopping, the indoor blower fan 6 may not be properly controlled.
[0051]
By the reverse rotation of the indoor blower fan 6, the ozone generated by the negative ion generator 8 can also be spread inside the indoor unit which is almost in a closed state, and the diffusion of the ozone to the outside of the indoor unit (indoor) is suppressed. Can be
[0052]
Subsequently, it is determined whether or not a signal for setting another function is input by the remote controller 12 during the reverse rotation of the indoor blower fan 6 (step ST26). If the setting operation is not performed, the operation stop signal is output. It is determined whether or not an input has been made (step ST27). The other functions include, for example, an operation start signal, a dehumidification signal, an air cleaning operation signal, and a clean operation signal.
[0053]
When the operation stop setting operation is not performed, it is determined whether or not the 10-minute timer has expired (step ST28). If the 10-minute timer has not elapsed, the process returns to step ST26, and the above-described determination processing is repeated. After 10 minutes have elapsed, the clean operation is stopped (step ST29), and the routine ends.
[0054]
As described above, the reverse rotation of the indoor blower fan 6 is continued for a maximum of 10 minutes, so that not only the ozone generated by the electric dust collector 7 disposed at the upper part of the indoor unit but also the lower part of the indoor unit (in this example, The ozone generated by the negative ion generator 8 disposed in the air outlet) causes the heat exchanger 5a on the rear side, the vicinity of the air outlet, and the air passage to all corners inside the indoor unit in a low temperature and low humidity state. Sterilization and deodorization can be effectively performed.
[0055]
When the operation stop operation is performed by the remote controller 12 before the time of the 10-minute timer expires, the process proceeds from step ST27 to step ST29, in which the clean operation is stopped, and the routine ends. When a signal for setting another function is input by the remote controller 12, the process proceeds from step ST26 to ST30 to turn off the electric dust collector 7.
[0056]
Subsequently, stop control of the indoor blower fan 6 is performed (step ST31), and the rotation speed of the indoor blower fan 6 is detected. When the rotation speed becomes 0 rpm (step ST32), the system waits for one second (step ST33). While the operation process of the other set function is executed (step ST34), the clean operation ends (step ST29).
[0057]
Unless the clean operation is forcibly terminated during the operation by another function setting from the remote controller 12, the operation mode is automatically returned to the operation mode immediately before the clean operation at the end of the clean operation. Thereby, the trouble of the setting operation by the remote controller 11 is saved again, and the setting state of the operation mode immediately before the clean operation does not have to be remembered.
[0058]
【The invention's effect】
As described above, according to the present invention, when performing a clean operation in which ozone is generated from the electrostatic precipitator and the negative ion generator to sterilize and deodorize the interior of the indoor unit, the room temperature and humidity are detected and the dew point is detected. Calculate the temperature and perform the cooling operation, detect and monitor the indoor heat exchange temperature, terminate the cooling operation before the indoor heat exchange temperature becomes at least below the dew point temperature, and set the interior of the indoor unit to low temperature and low humidity. By performing the specified first and second clean operations after setting the state, the decomposition of ozone generated during the clean operation is suppressed as much as possible. Therefore, the ozone can be distributed to every corner inside the indoor unit, and the inside of the indoor unit can be sterilized and deodorized efficiently and effectively. It is effective that the cooling operation is performed after the heating operation for drying the inside of the indoor unit.
[Brief description of the drawings]
FIG. 1 is a schematic cross-sectional view for explaining a configuration of an indoor unit to which an air conditioner control method according to the present invention is applied.
FIG. 2 is a schematic block diagram showing a control system of the air conditioner.
FIG. 3 is a flowchart for explaining the operation of the present invention.
FIG. 4 is a flowchart for explaining the operation of the present invention.
[Explanation of symbols]
Reference Signs List 1 indoor unit side control circuit 1a determination unit 1b timer 1c state determination unit 1d storage unit 1e counter unit 1f rotation speed detection unit 1g dew point temperature calculation unit 2 outdoor unit side control circuit 2a operation mode determination unit 2b compressor control unit 3a open / close panel 3b Multi panel (auxiliary opening and closing panel)
3c, 3d Normally-open air inlet 4 Up-down air direction plates 5a, 5b, 5c Indoor heat exchanger 6 Indoor blower fan 7 Electric precipitator (electric air cleaning unit)
8 Negative ion generator 9 Room temperature sensor 10 Humidity sensor 11 Indoor heat exchange temperature sensor 12 Remote controller 13 Main body display unit 14 Drain pan 15 Four-way valve 16 Compressor 17 Outdoor fan unit

Claims (6)

A heat exchanger and a room are provided in an air passage connecting an air inlet including at least a front air inlet and a normally open air inlet having an opening / closing panel and an air outlet provided below the front air inlet. An indoor unit housing in which a blower fan is arranged is provided, an electric dust collector is arranged between the normally-open air inlet and the heat exchanger, and a negative ion generator is arranged in the air outlet. A control method of an air conditioner having an auxiliary opening / closing panel capable of forming a short circuit of air between the front air inlet and the air outlet, and capable of performing a clean operation using ozone,
At the time of the clean operation, the room temperature and the indoor humidity are detected by the room temperature sensor and the humidity sensor arranged in the indoor unit housing, the dew point temperature Td is calculated from the room temperature and the indoor humidity, and then the cooling operation is started. The indoor heat exchange temperature Tn is detected by using a heat exchange temperature sensor, and after the cooling operation is completed before the indoor heat exchange temperature Tn becomes equal to or lower than the dew point temperature Td, the open / close panel is closed to close the auxiliary open / close panel. In the open state, a first clean mode in which the indoor blower fan is continuously or intermittently rotated forward for a predetermined time in a state where ozone is generated from the electric dust collector, and thereafter, the open / close panel and the auxiliary With the open / close panel closed and the ozone generated by the negative ion generator, the indoor blower fan is Or intermittently controlling method of an air conditioner which is characterized in that so as to perform a second cleaning mode in which reverse rotation. An upper and lower wind direction plate for changing the air blowing direction is provided in the air outlet, and in the first clean mode, the upper and lower wind direction plates are oriented toward the auxiliary opening and closing panel, and the air outlet and the auxiliary opening and closing panel are provided. The control method for an air conditioner according to claim 1, wherein a short circuit of air is formed during the operation. The control method for an air conditioner according to claim 1, wherein the operation mode is a blowing mode during the first clean mode and the second clean mode. 4. The control method for an air conditioner according to claim 1, wherein the heating operation is performed for a predetermined time before the cooling operation is performed, and the inside of the indoor unit housing is dried. The control method for an air conditioner according to claim 4, wherein during the drying operation in the heating mode, the open / close panel and the auxiliary open / close panel are opened, and the upper and lower wind direction plates are set in a horizontal state. 2. When the clean operation is selected while the air conditioner is operating in a predetermined operation mode, the air conditioner is returned to the operation mode immediately before the clean operation after the clean operation is completed. 6. The method for controlling an air conditioner according to any one of items 5 to 5.

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