KR20130079849A - Air conditioner and controlling method of the same - Google Patents

Abstract

PURPOSE: An air conditioner and a control method thereof are provided to perform a moisturizing operation mode and to drive an anion generator according to the same, thereby performing an air conditioning function with respect to a space to be air-conditioned and a skin moisturizing function for a user at the same time. CONSTITUTION: An air conditioner comprises one or more outdoor units (20), one or more indoor units (10,10a), and a control device. The indoor units are connected to the outdoor units and coolant pipes perform an air conditioning function. The control device operates the indoor unit and the outdoor units based on the operational instructions. The control device receives the instructions for operating a moisturizing operation mode and performs the moisturizing operation mode based on a preset operation condition or a current operation mode.

Description

Air conditioner and its control method {AIR CONDITIONER AND CONTROLLING METHOD OF THE SAME}

The present invention relates to an air conditioner having a skin moisturizing function and a control method thereof.

In general, an air conditioner includes a compressor for compressing a refrigerant at a high temperature and high pressure, a condenser for exchanging the high temperature and high pressure refrigerant transferred from the compressor with ambient air, and changing the liquid state to a low temperature and high pressure liquid state, and changing the liquid state from the condenser to a liquid state. And the evaporator which is evaporated while passing the low temperature low pressure refrigerant transferred from an expansion valve or capillary tube which decompresses the transferred refrigerant to a low temperature low pressure liquid and gas state to take the surrounding heat at a low temperature, and in the evaporator A blower fan for discharging the cooled air into the room, an accumulator for filtering liquid refrigerant from the refrigerant gas evaporated in the evaporator to be introduced into the compressor, and a control unit for controlling the overall operation of the air conditioner. It consists of.

On the other hand, air conditioners are classified according to the type and number of configurations, such as the indoor unit, outdoor unit, control unit, and connection pipe, RAC (Rotary Air Conditioner) consisting of one indoor unit and outdoor unit, one outdoor unit and one or more indoor unit and duct ( These include unitary air conditioners composed of ducts, multi air conditioners composed of one or more outdoor units and one or more indoor units and a central control unit.

In addition, the air conditioner includes a separate air conditioner in which the indoor unit and the outdoor unit are separately separated, an integrated air conditioner in which the indoor unit and the outdoor unit are inserted into one unit, a wall-mounted air conditioner and a frame type air conditioner configured to be mounted on a wall, and a living room. It can be further divided into a slim air conditioner configured to stand and a single air conditioner configured to be used in a narrow place such as a home, which is configured with a capacity capable of driving one indoor unit.

Embodiments of the present invention have an object to provide an air conditioner having a skin moisturizing function and a control method thereof.

Embodiments of the present invention have another object to provide an air conditioner and a control method thereof capable of performing the moisturizing operation mode while maintaining compatibility with existing operation logic without conflicting with the operation mode being performed.

An air conditioner according to an embodiment includes at least one outdoor unit, at least one indoor unit connected to the outdoor unit and a refrigerant pipe to perform air conditioning, and a control device to operate the outdoor unit or the indoor unit based on an operation command. The control device receives a moisturizing driving command and performs a moisturizing driving mode based on a preset driving condition or a current driving mode.

The air conditioner further comprises an anion generator for generating anions in the air conditioning space. Here, the control device drives the negative ion generator when the moisturizing operation command is input.

In the air conditioner, the moisturizing operation mode is a mode in which at least one control factor among temperature, air volume, and wind speed is set to a predetermined value and operated.

A control method of an air conditioner according to an embodiment of the present invention includes a method of controlling an air conditioner having an anion generator, the method comprising: receiving an operation command and if the operation command is a moisturizing operation command, one or more preset operating conditions Comparing with the step, and as a result of the operation, if possible, comprising the step of performing the moisturizing operation mode according to the moisturizing operation command. The performing of the moisturizing operation mode may include driving the negative ion generator and controlling one or more control factors of temperature, air volume, and wind speed.

Embodiments of the present invention may provide a user with a skin moisturizing function while performing air conditioning on the air conditioning space by performing a moisturizing operation mode and driving an anion generator accordingly.

Embodiments of the present invention maintain the compatibility with the existing driving logic without colliding with the running driving mode by performing the moisturizing driving mode based on a preset driving condition or the current driving mode. This improves system stability and user convenience.

Embodiments of the present invention reduce the user's misunderstanding or inconvenience by notifying the user through a display when performing or releasing the moisturizing driving mode.

Embodiments of the present invention provide general purpose moisturizing operation logic to be applied to various types of air conditioners.

1 is a perspective view showing the appearance of an air conditioner according to an embodiment;
2 is a block diagram schematically showing the configuration of a control device provided in the air conditioner of FIG.
3 is a view showing the configuration of an air conditioner according to another embodiment;
4 is a block diagram showing a configuration and a connection relationship between a control device and a wireless controller in an air conditioner according to embodiments of the present invention;
5 schematically illustrates a refrigerant cycle of an air conditioner according to embodiments of the present invention;
6 to 9 are flowcharts schematically illustrating a control method of an air conditioner according to embodiments of the present disclosure; And
10 and 11 are graphs exemplarily illustrating a change in skin moisturization rate of a user after the air conditioner according to embodiments of the present disclosure performs the moisturizing driving mode.

1 or 3, an air conditioner according to embodiments of the present disclosure may include one or more outdoor units 20 and one or more indoor units 10 connected to the outdoor unit 20 and a refrigerant pipe to perform air conditioning. 10a) and a control device 100 for driving the outdoor unit or the indoor unit based on a driving command. That is, embodiments of the present invention can be applied regardless of the shape of the air conditioner. Here, the control device 100 receives a moisturizing driving command and performs the moisturizing driving mode based on a preset driving condition or a current driving mode.

The moisturizing driving mode is a driving mode for generating ions to generate a large amount of ion clusters (20 to 30 nm) combined with the surrounding moisture to penetrate the user's skin surface to maintain the user's skin moisture. To this end, the air conditioner controls the operation of the negative ion generator and control factors such as temperature, wind direction, air volume, and the like, as will be described later when the moisturizing operation mode is performed.

Here, the operating condition is, for example, whether the air conditioner is currently in operation, or whether the air conditioner is currently in cooling or blowing operation. In other words, in order for the air conditioner to perform the moisturizing operation mode, the air conditioner must be currently operating, and the air conditioner must be currently operating in the cooling or the breeze driving mode.

Referring to FIG. 2, the control device 100 includes an input unit 130 for receiving the driving command, a storage unit 120 for storing a setting value of each driving mode according to each driving command, and the driving mode. It is configured to include an output unit 140 for outputting the result of the execution.

The control device 100 further includes a control unit 110 for interpreting a driving command and driving the indoor unit or the outdoor unit according to the driving command. In addition, the controller 110 controls the operation of each unit.

The storage unit 120 includes a memory such as an EEPROM, and stores previously set values for the operation mode, for example, air volume, wind direction, temperature, and the like. In addition, the storage unit 120 stores data necessary for outdoor unit and indoor unit operation, indoor fan control, vane control, and the like, and stores operation information and state information. In addition, the storage unit 120 may store an algorithm for performing each driving mode.

The input unit 130 includes one or more buttons, switches, and the like, and receives a setting command, a driving command, and the like from a user. The output unit 140 includes display means for displaying various data, information, and the like as text or images. For example, the output unit 140 displays whether each driving mode is executed, whether it is released, driving information, status information, and the like on the screen.

Referring back to FIG. 1 or 3, the air conditioner further includes a wireless controller 30 that receives the moisturizing operation command and transmits the command to the control device. The wireless controller 30 is provided indoors, and a wireless remote controller is generally connected to indoor units in a wireless communication scheme, for example, an infrared ray communication (IR), a radio frequency communication (RF), and the like, to transmit and receive data. . The wireless controller may also be a terminal of one of a computer, a cellular phone, a smartphone, and a PDA.

Referring to FIG. 4, the wireless controller includes an input module 340 having one or more buttons and receiving the moisturizing operation command, and a communication module for transmitting a radio signal according to the moisturizing operation command to the control device. 320, a display module 330 indicating whether the moisturizing driving mode is performed, and a control module 310 generating the wireless signal. Here, the button for receiving the moisturizing driving command may be toggled. That is, the button may be toggled to indicate the entry of the mode when the user presses the button once, and the release of the current mode when the user presses the button again.

The communication module 320 is connected to the control device 100 in a wireless communication method to transmit and receive data and to transmit a control signal. In addition, the wireless controller may be connected to the indoor unit through the control device, and may be connected to the wired controller 40. The control module 310 generates a control signal according to the driving command. The input module 340 receives a driving command for the air conditioner, for example, a moisturizing driving command corresponding to the moisturizing driving mode. The display module 330 may display a driving command, a driving mode currently being performed, driving information, and status information on the screen. The wireless controller 30 may further include a storage module 350 that stores driving commands, control signals, driving information, status information, and the like.

The control device 100 further includes a communication unit 150 connected to the wireless controller 30 in a wireless communication manner and receiving data or control signals. The communication unit 150 transmits and receives data with the wireless controller 30 in a wireless communication method such as IR and RF. In addition, the communication unit 150 may transmit / receive data with the wired controller 40 in a wired communication method such as RS-485. The communication unit 150 receives a control signal from the wireless controller 30 and transmits a result of executing an operation command included therein to the wireless controller.

7, the operation operation of the air conditioner will be briefly described.

Referring to FIG. 7, the indoor unit 10 includes an indoor heat exchanger 11 for exchanging refrigerant and indoor air, an expansion valve (not shown) for expanding the refrigerant supplied from the outdoor unit, and an indoor fan (not shown). It is configured to include).

Referring to FIG. 7, the outdoor unit 20 includes a compressor 22 for compressing the refrigerant, an outdoor heat exchanger 21 for exchanging the refrigerant with outdoor air, and the refrigerant being the outdoor heat exchanger 21 or A four-way valve 23 connected to be discharged to the indoor heat exchanger 11, an accumulator 24 for filtering a refrigerant in a liquid state and supplying the refrigerant in a gas state to the compressor, and an outdoor fan (not shown). It is configured by. The compressor 22 may be divided into a constant speed compressor 22a and an inverter compressor 22b. In addition, the outdoor unit 20 may include an oil separation device for separating oil from the refrigerant flowing between the inverter compressor 22b and the four-way valve 23.

Four-way valve 23 is a cooling or heating cycle to switch the flow flow of the refrigerant to supply the refrigerant discharged from the constant speed compressor (22a) and inverter compressor (22b) to the outdoor heat exchanger 21 or the indoor heat exchanger (11) To be driven.

The accumulator 24 receives the refrigerant discharged from the four-way valve 23 and supplies only the gaseous refrigerant to the constant speed compressor 22a or the inverter compressor 22b.

The constant speed compressor 22a compresses and discharges a predetermined amount of refrigerant, and the inverter compressor 22b can discharge the regulated amount of refrigerant within a predetermined range. In particular, the constant speed compressor 22a and the inverter compressor 22b can be driven either or both by the control device, and when only one of the constant speed compressor 22a and the inverter compressor 22b is driven to the other compressor. In order to prevent the refrigerant from flowing in, the discharge valves of the constant speed compressor and the inverter compressor may be provided with check valves, respectively. The accumulator 24, the constant speed compressor 22a and the inverter compressor 22b are connected via a connecting pipe.

The oil separator is installed between the oil separator 22e installed between the check valve and the inverter compressor 22b, and the oil separated between the oil separator 22e and the inverter compressor 22b to separate the oil separated from the oil separator 22e. It may be configured to include a capillary tube 22f and a solenoid valve 22g to pass. Here, the capillary tube 22f is installed on the oil separator side, and the solenoid valve is installed on the input side of the inverter compressor 22b. The solenoid valve is controlled by a control device and opened and closed at a predetermined cycle so that oil separated from the oil separator 22e flows into the input side of the inverter compressor 22b. In general, the capacity of the constant speed compressor 22a is larger than that of the inverter compressor 22b, and the inverter compressor 22b is initially driven based on the indoor load capacity during cooling and heating operations.

Referring to FIG. 11, the moisturizing operation mode of the air conditioner according to the embodiments of the present invention has a slight difference, but has a great effect on skin moisturization regardless of the constant speed compressor (motor) and the inverter compressor (motor). Able to know.

Referring to FIG. 1, the air conditioner further includes an anion generator 210 generating anion in the air conditioning space. Negative ion generator 210 is preferably installed on the front of the indoor unit. Here, when the control device 100 receives the moisturizing operation command, the control device 100 drives the negative ion generator. When the execution of the moisturizing operation mode ends, the control device stops driving the negative ion generator. The indoor unit 10 may further include a front panel. In this case, when the front panel is opened, the negative ion generator may be set not to be driven. That is, when the front panel of the indoor unit is opened, the control device operates a safety switch provided in the indoor unit to block the operation of the negative ion generator in a circuit. Figure 10 shows that there is a slight difference in the user's skin moisturizing rate depending on the operation of the negative ion generator. Therefore, it is preferable to operate the negative ion generator when performing the moisturizing operation mode.

In addition, the air conditioner performs the moisturizing operation mode by setting at least one control factor of temperature, air volume, and wind direction to a predetermined value. For example, it is possible to set the desired temperature to 25 ° C., the air volume to the strong wind, and the wind direction upward in correspondence with the moisturizing operation mode.

The indoor unit 10 further includes one or more discharge ports and one or more vanes 220 provided in the discharge holes to change the wind direction. Here, the control device 100 changes the vane to a constant moisturizing angle in the moisturizing operation mode.

When the air conditioner receives the moisturizing operation command while the air conditioner performs the operation mode for controlling the vane, the control device maintains the vane control in the current operation mode. For example, if the air conditioner is performing vane control such as auto swing and 6 step setting angle operation before performing the moisturizing operation mode, the control device maintains the previous vane state and performs initialization according to the moisturizing operation mode. Not. The control device 100 may control the vane according to the received driving command when the driving command for controlling the vane is input after the moisturizing driving mode is performed.

On the other hand, when the air conditioner does not perform the vane control before performing the moisturizing operation mode (for example, when driving at the base angle), the control device controls the vane at a preset skin moisturizing angle. For example, if the moisturizing operation command is input while the air conditioner is operating at the cooling base angle, the control device controls the vanes at the skin moisturizing angle. The control unit then moves the vane at the step angle upon receipt of step control and either auto swings or stops the vane immediately upon receipt of an auto swing input / release command. In addition, the control device releases the moisturizing operation mode and moves the vane to the power wind angle or the cooling basic angle when an operation mode that cannot coexist, for example, a power wind or a power saving cooling operation command is input as described later.

The indoor unit 10 further includes an indoor fan that is rotated according to the rotational force to adjust the air volume, and a fan motor that applies the rotational force to the indoor fan. Here, the control device 100, so that the indoor fan has a certain amount of air in the moisturizing operation mode. Further, when the air conditioner receives the moisturizing operation command while the air conditioner forcibly sets the air volume, the control device maintains the indoor fan control in the currently operating mode.

When the air conditioner receives the moisturizing operation command while the air conditioner performs the operation mode using the desired temperature, the control device changes the desired temperature to a constant temperature.

For example, when the air conditioner is in the cooling operation before the moisturizing operation mode is performed and the desired temperature is operated at 19 ° C. and the mild wind, the control device changes the preset temperature to 25 ° C. and the strong wind. At this time, the output unit 140 displays the execution of the moisturizing operation mode in the front window of the indoor unit. Then, when the moisturizing operation mode is released, the air conditioner is operated by returning to the previous desired temperature of 19 ° C. and the mild wind.

When the air conditioner receives the operation command for controlling the air volume after the moisturizing operation mode is performed, the indoor fan is controlled according to the received operation command. The control device may control the desired temperature according to the received operation command when an operation command for controlling the desired temperature is received after the moisturizing operation mode is performed.

When the air conditioner receives the moisturizing operation command during the non-coexistence operation mode, the air conditioner cancels the execution of the non-coexistence operation mode and performs the moisturizing operation mode. If the control device 100 receives an operation command for the non-coexistence operation mode during the moisturizing operation mode, the control device 100 releases the execution of the moisturizing operation mode. For example, when a moisturizing operation command is input when the operation mode for performing rapid cooling such as power cooling operation or special wind driving is input, the air conditioner cancels the power cooling or special wind operation and performs the moisturizing operation mode. . On the contrary, when the operation command for the power cooling operation or the special wind driving or the like is input during the execution of the moisturizing operation mode, the air conditioner cancels the execution of the moisturizing operation mode and performs the power cooling or the special wind driving.

On the other hand, when the air conditioner receives the moisturizing operation command while performing the coexistence operation mode, the control device controls some of the control factors according to the coexistence operation mode, and the remaining control factors according to the moisturizing operation mode. To control. For example, in the case of the normal bedtime reservation operation, the desired temperature and the air volume depend on the bedtime driving mode. In addition, in the case of the learning cooling operation or the quite cooling mode, the air volume is controlled according to the learning cooling operation mode, and the desired temperature and the wind direction can be controlled by the temperature of the moisturizing operation mode and the skin moisturizing angle, respectively.

Referring to FIG. 6, in a method of controlling an air conditioner according to an embodiment, in a method of controlling an air conditioner having an anion generator, a step (S100) of receiving an operation command and a moisturizing operation of the operation command are provided. If it is a command, it comprises a step (S200) of comparing with one or more preset driving conditions, and if the result of the comparison, the operation, the step of performing the moisturizing operation mode according to the moisturizing operation command (S300).

Here, the step of performing the moisturizing operation mode, as shown in Figure 9, the step of driving the negative ion generator (S310), and the step of controlling one or more control factors of temperature, air volume, and wind direction (S320) It is configured to include.

Here, the operating condition is, for example, whether the air conditioner is currently in operation, or whether the air conditioner is currently in cooling or blowing operation. In other words, in order for the air conditioner to perform the moisturizing operation mode, the air conditioner must be currently operating, and the air conditioner must be currently operating in the cooling or the breeze driving mode.

Referring back to FIG. 6, the control method may include determining whether the non-coexistence operation mode is being performed (S400), and when the determination result indicates that the non-coexistence operation mode is being performed, canceling the non-coexistence operation mode. It further comprises a step (S500). If it is determined that the air conditioner is performing the coexistence operation mode, some of the control factors are controlled according to the coexistence operation mode, and the other control factors are controlled according to the moisturizing operation mode. On the other hand, when the air conditioner receives an operation command for the non-coexistence operation mode while performing the moisturizing operation mode, the air conditioner cancels the execution of the moisturizing operation mode.

Referring to FIG. 7, in the moisturizing operation mode, the air conditioner is operated such that the indoor fan has a certain air volume. When the air conditioner receives a moisturizing operation command while the driving mode forcibly sets the air volume (S3211), the air conditioner maintains the indoor fan control in the currently running driving mode (S3212). In addition, when the air conditioner receives a moisturizing operation command while performing the operation mode using the desired temperature (S3221), the air conditioner changes the desired temperature to a constant temperature (S3222).

For example, when the air conditioner is in the cooling operation before the moisturizing operation mode is performed and the desired temperature is operated at 19 ° C. and the mild wind, the air conditioner is input to the preset temperature of 25 ° C. and the strong wind. At this time, the air conditioner displays execution of the moisturizing operation mode on the front window of the indoor unit. Then, when the moisturizing operation mode is released, the air conditioner is operated by returning to the previous desired temperature of 19 ° C. and the mild wind.

If the air conditioner receives an operation command for controlling the air volume after performing the moisturizing operation mode (S900), the air conditioner may change the air volume according to the received driving command (S910). In addition, if the air conditioner receives an operation command for controlling the desired temperature after performing the moisturizing operation mode (S900), the air conditioner may control the desired temperature according to the received operation command (S910).

Referring to FIG. 8, when the air conditioner receives the moisturizing operation command during the operation mode of controlling the vanes (S3231), the air conditioner maintains the vane control in the currently running operation mode (S3232). For example, if the air conditioner is performing vane control such as auto swing and 6 step setting angle operation before performing the moisturizing operation mode, it maintains the previous vane state and does not perform initialization according to the moisturizing operation mode. If the air conditioner receives an operation command for controlling the vane after the moisturizing operation mode is performed, the air conditioner may control the vane according to the received operation command.

On the other hand, when the vane control is not performed before the moisturizing operation mode is performed (for example, when driving at the base angle), the air conditioner moves the vanes to a preset skin moisturizing angle (S3233). For example, if the moisturizing operation command is input while the air conditioner is operating at the cooling base angle before performing the moisturizing operation mode, the vane is moved at the skin moisturizing angle. The air conditioner then moves the vanes to the corresponding step angle upon receipt of step control, auto swings or stops the vanes upon receipt of the auto swing on / off command. In addition, the air conditioner cancels the moisturizing operation mode and receives the vane at the power wind angle or the cooling base angle when an air coexistence operation mode, for example, a power wind or a power saving cooling operation command is input.

The air conditioner may further include a wireless controller that receives the moisturizing driving command and generates a control signal and transmits the control signal to the indoor unit or the control device.

Referring to FIG. 9, when a user inputs a moisturizing operation command using a button or the like provided in the wireless controller (S110), the wireless controller generates a control signal corresponding to the moisturizing operation command (S111) and airs the control signal. It transmits to the control apparatus provided in the conditioner (indoor) (S112). The control device compares with one or more preset operating conditions, for example, whether the air conditioner is currently in operation or whether the air conditioner is currently in cooling or blowing operation (S200). As a result of the comparison, if the operation is possible, the control device operates the air conditioner in the moisturizing operation mode according to the moisturizing operation command (S300). Then, the control device checks whether the air conditioner is performing an operation mode that cannot coexist with the moisturizing operation mode (S400).

The performing of the moisturizing operation mode (S300) includes a step (S310) of driving the negative ion generator and a step (S320) of controlling one or more control factors of temperature, air volume, and wind direction. That is, the control device starts the moisturizing operation mode by setting at least one control factor of temperature, air volume, and wind direction to a predetermined value (S320). For example, it is possible to set the desired temperature to 25 ° C., the air volume to the strong wind, and the wind direction upward in correspondence with the moisturizing operation mode.

When the air conditioner receives the moisturizing operation command during the non-coexistence operation mode, the air conditioner cancels the execution of the non-coexistence operation mode and performs the moisturizing operation mode. On the contrary, if the air conditioner receives an operation command for the non-coexistence operation mode during the moisturizing operation mode, the air conditioner cancels the execution of the moisturizing operation mode. For example, when a moisturizing operation command is input when the operation mode for performing rapid cooling such as power cooling operation or special wind driving is input, the air conditioner cancels the power cooling or special wind operation and performs the moisturizing operation mode. . On the contrary, when the operation command for the power cooling operation or the special wind driving or the like is input during the execution of the moisturizing operation mode, the air conditioner cancels the execution of the moisturizing operation mode and performs the power cooling or the special wind driving.

On the other hand, when the air conditioner receives the moisturizing operation command while performing the coexistence operation mode, some of the control factors are controlled according to the coexistence operation mode, and the other control factors are controlled according to the moisturizing operation mode ( S320). For example, in the case of the normal bedtime reservation operation, the desired temperature and the air volume depend on the bedtime driving mode. In addition, in the case of the learning cooling operation or the quite cooling mode, the air volume is controlled according to the learning cooling operation mode, and the desired temperature and the wind direction may be controlled by the temperature of the moisturizing operation mode and the skin moisturizing angle, respectively.

When the moisturizing operation mode is performed, the air conditioner displays the running indication by using an icon or the like. When the air conditioner performs the moisturizing operation mode, the control device may transmit a signal confirming that the moisturizing operation mode is performed to the wireless controller (S301). The wireless controller may display this when the air conditioner performs the moisturizing operation mode (S600).

In addition, the wireless controller may receive another operation command while the air conditioner performs the moisturizing operation mode, or may receive a release command of the moisturizing operation mode (S700), and generate a control signal according to this (S710) and transmit it to the control device. There is (S720). In this case, the control device releases the moisturizing operation mode of the air conditioner and also releases the display thereof (S800). Accordingly, the wireless controller also releases the display of the moisturizing driving mode (S810).

As described above, the air conditioner and the control method thereof according to the embodiments of the present invention perform a moisturizing operation mode and accordingly drive the negative ion generator to perform air conditioning for the air conditioning space and provide the user with a skin moisturizing function. can do. Embodiments of the present invention maintain the compatibility with the existing operation logic without colliding with the existing operation mode by performing the moisturizing operation mode based on a preset operation condition or the current operation mode. In addition, embodiments of the present invention notify the user through a display when performing or releasing the moisturizing driving mode.

10, 10a: indoor unit 20: outdoor unit
30: wireless controller 100: controller

Claims (26)

One or more outdoor units;
At least one indoor unit connected to the outdoor unit and a refrigerant pipe to perform air conditioning; And
And a control device for driving the outdoor unit or the indoor unit based on a driving command.
The control device includes:
And a moisturizing operation command based on a moisturizing operation command and performing a moisturizing operation mode based on a preset operation condition or a current operation mode. The method according to claim 1,
Further comprising; Anion generator for generating anions in the air conditioning space,
The control device includes:
The air conditioner, characterized in that for driving the negative ion generator receives the command. The method of claim 2, wherein the moisturizing operation mode,
And a mode in which at least one control factor among temperature, air volume, and wind direction is set to a predetermined value and operated. According to claim 3, The indoor unit,
At least one discharge port and at least one vane provided at the discharge port to change the wind direction,
The control device includes:
And the vane is changed to a predetermined moisturizing angle in the moisturizing operation mode. The method of claim 4, wherein the control device,
The vane control in the current driving mode is maintained when the moisturizing operation command is input during the operation of the operation mode for controlling the vane. The method of claim 4, wherein the control device,
And after the start of the moisturizing operation mode, when the operation command for controlling the vane is input, the vane is controlled according to the received operation command. According to claim 3, The indoor unit,
An indoor fan that is rotated according to a rotational force to adjust the air volume, and a fan motor that applies the rotational force to the indoor fan,
The control device includes:
The air conditioner, characterized in that the indoor fan has a certain amount of air in the moisturizing operation mode. The method of claim 7, wherein the control device,
The air conditioner of the present invention is configured to maintain control of an indoor fan in a driving mode which is currently being executed when the moisturizing driving command is input during the driving mode of forcibly setting the air volume. The method of claim 7, wherein the control device,
After the start of the moisturizing operation mode, if the operation command for controlling the air volume is input, the air conditioner, characterized in that for controlling the indoor fan according to the received operation command. The method of claim 3, wherein the control device,
The air conditioner of claim 1, wherein the desired temperature is changed to a predetermined temperature when the moisturizing operation command is input during the operation mode using the desired temperature. The method of claim 10, wherein the control device,
After the start of the moisturizing operation mode, if the operation command for controlling the desired temperature is received, the air conditioner, characterized in that for controlling the desired temperature according to the received operation command. The method of claim 3, wherein the control device,
The air conditioner of the non-coexistence operation mode, when receiving the command of the moisturizing operation, the air conditioner characterized in that the release of the non-coexistence operation mode and performing the moisturizing operation mode. The method of claim 12, wherein the control device,
And during operation of the moisturizing operation mode, canceling the execution of the moisturizing operation mode when an operation command for the non-coexistence operation mode is input. The method of claim 3, wherein the control device,
When the moisturizing operation command is input during the coexistence operation mode, some of the control factors are controlled according to the coexistence operation mode, and the other control factors are controlled according to the moisturizing operation mode. group. The method of claim 2, wherein the control device,
When the execution of the moisturizing operation mode is finished, the air conditioner characterized in that the driving of the negative ion generator is stopped. According to claim 2, The indoor unit,
With front panel,
The negative ion generator,
And the front panel is opened and not driven. The method of claim 1, wherein the operating condition,
An air conditioner, wherein the air conditioner is currently in operation, or whether the air conditioner is currently in cooling or blowing operation. The method according to any one of claims 1 to 17, wherein the control device,
An input unit to receive the driving command;
A storage unit which stores a setting value of each operation mode according to each operation command; And
And an output unit for outputting a result of performing the operation mode. 19. The method of claim 18,
And a wireless controller configured to receive the moisturizing operation command and transmit the received moisturizing operation command to the control device. The method of claim 19, wherein the wireless controller,
An input module having one or more buttons and receiving the moisturizing driving command;
A communication module for transmitting a radio signal according to the moisturizing operation command to the control device;
A display module configured to display whether the moisturizing driving mode is performed; And
And a control module for generating the wireless signal. 21. The method of claim 20,
The button for receiving the moisturizing operation command is toggled, characterized in that the air conditioner. In a method of controlling an air conditioner having an anion generator,
Receiving a driving command;
If the driving command is a moisturizing driving command, comparing the driving command with one or more preset driving conditions; And
When the comparison result, if possible, performing the moisturizing operation mode according to the moisturizing operation command;
The performing of the moisturizing driving mode may include:
Driving the negative ion generator; And
And controlling one or more control factors of temperature, air volume, and wind speed. The method of claim 22, wherein the operating conditions,
A control method of an air conditioner, characterized in that whether the air conditioner is currently in operation, or whether the air conditioner is currently operating in cooling or blowing. The method of claim 22 or 23,
Determining whether a driving mode that cannot coexist is being performed; And
If the determination result, performing the non-coexistence operation mode, releasing the non-coexistence operation mode; control method of the air conditioner further comprising. 25. The method of claim 24,
If it is determined that the coexistence operation mode is being performed, some of the control factors are controlled according to the coexistence operation mode, and the other control factors are controlled according to the moisturizing operation mode. . The method of claim 22 or 23,
And during operation of the moisturizing operation mode, when the operation command for the non-coexistence operation mode is input, the execution of the moisturizing operation mode is cancelled.

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