KR102080857B1 - Air conditioner and controlling method of the same - Google Patents

Abstract

The air conditioner according to the present invention is disposed in the outdoor unit, the noise generating unit for generating noise in the operation process; A noise measuring unit measuring noise generated by the noise generating unit; A driving unit for driving the noise generator; And a controller configured to adjust the operation of the driving unit based on the information related to the noise measured by the noise measuring unit, wherein the information related to the noise includes information about a frequency range of the noise and noise according to the frequency range. At least one of the information on the duration and the information on the size of the noise is included.
The control method of the air conditioner according to the present invention includes the steps of measuring the noise of the outdoor unit generated by the noise generator; Calculating a frequency of the noise by a controller; Recognizing whether the magnitude of the noise is greater than or equal to a predetermined magnitude and the duration of the noise is greater than or equal to a preset time; And controlling the driving unit to operate the noise generator.

Description

Air conditioner and controlling method {Air conditioner and controlling method of the same}

The present invention relates to an air conditioner and a control method thereof.

An air conditioner is a device that controls indoor temperature by discharging cold air into a room to create a comfortable indoor environment. The air conditioner may also be equipped with an air cleaning function for purifying indoor air.

In general, an air conditioner includes an indoor unit installed indoors and an outdoor unit equipped with a plurality of parts such as a compressor and a heat exchanger to supply a refrigerant to the indoor unit. At least one indoor unit may be connected to the outdoor unit. In addition, the air conditioner may be operated in a cooling or heating mode by supplying a refrigerant to the indoor unit. The cooling mode or the heating mode, which is an operation method of the air conditioner, may vary according to an operation state requested by the user.

That is, the air conditioner may perform a cooling operation or a heating operation according to the flow of the refrigerant.

First, the flow of the refrigerant when the cooling operation is performed in the air conditioner will be described. The refrigerant compressed by the compressor of the outdoor unit becomes a liquid refrigerant of high temperature and high pressure through the heat exchanger of the outdoor unit. When the liquid refrigerant is supplied to the indoor unit, vaporization may occur as the refrigerant is expanded in the heat exchanger of the indoor unit. The temperature of the surrounding air is lowered by the vaporization phenomenon. In addition, cold air may be discharged into the room while the indoor unit fan is rotating.

The flow of the refrigerant when the heating operation is performed in the air conditioner is as follows. When the high temperature and high pressure gas refrigerant is supplied to the indoor unit from the compressor of the outdoor unit, the high temperature and high pressure gas refrigerant may be liquefied by the heat exchanger of the indoor unit. The energy released by the liquefaction phenomenon raises the temperature of the ambient air. Then, the indoor unit fan may rotate while the warm air is discharged.

Meanwhile, when the air conditioner is operated by the user, an outdoor blower, an expansion valve, and a compressor disposed inside the outdoor unit may be driven. The outdoor unit may generate noise by the component.

According to the related art, when noise is generated in the outdoor unit, the driving speed of the outdoor blower is adjusted through a control unit disposed inside the outdoor unit. That is, conventionally, the rotation speed of the fan motor of the outdoor unit is reduced by the noise reduction method of the outdoor unit.

Therefore, the noise generated in the compressor and the expansion valve was maintained as it is. In the process of reducing the fan noise, the operator directly visits the site where the fan noise is generated and measures the noise generated by the outdoor unit. In addition, the worker has an inconvenience in the work of controlling the rotational speed of the fan motor by manually controlling the control unit.

An object of the present invention is to provide an air conditioner that can analyze the noise generated in the outdoor unit and control the components disposed inside the outdoor unit based on the analyzed result to reduce the noise generated in the outdoor unit.

Air conditioner according to the present invention is disposed inside the outdoor unit, the noise generating unit for generating noise in the operation process; A noise measuring unit measuring noise generated by the noise generating unit; A driving unit for driving the noise generator; And a controller configured to adjust the operation of the driving unit based on the information related to the noise measured by the noise measuring unit, wherein the information related to the noise includes information about a frequency range of the noise and noise according to the frequency range. At least one of the information on the duration and the information on the size of the noise is included.

The control method of the air conditioner according to the present invention includes the steps of measuring the noise of the outdoor unit generated by the noise generator; Calculating a frequency of the noise by a controller; Recognizing whether the magnitude of the noise is greater than or equal to a set magnitude and the duration of the noise is greater than or equal to a set time; And controlling the driving unit to operate the noise generator.

According to the present invention, information related to the noise of the outdoor unit measured by the noise measuring unit may be transmitted to a control unit provided in the outdoor unit.

The controller may control the operation of the compressor, the expansion valve, and the outdoor blower disposed in the outdoor unit based on the information related to the noise.

Therefore, since the noise generated by the outdoor unit can be efficiently reduced according to the information related to the noise, user convenience can be improved.

1 is a view showing the configuration of an air conditioner according to the present invention.
2 shows a system of an air conditioner according to the invention.
3 is a view showing the configuration of an outdoor unit according to the present invention;
4 is a block diagram of an air conditioner according to the present invention.
5 is a flowchart of an air conditioner according to the present invention.
FIG. 6 is a flowchart for explaining operation S320 of FIG. 5;
FIG. 7 is a flowchart for describing operation S340 of FIG. 5;

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used to refer to the same components as much as possible, even if displayed on different drawings. In addition, in describing the embodiments of the present invention, if it is determined that the detailed description of the related well-known configuration or function interferes with the understanding of the embodiments of the present invention, the detailed description thereof will be omitted.

1 is a view showing the configuration of an air conditioner according to the present invention. Specifically, FIG. 1A illustrates an indoor unit and an outdoor unit as an example of a stand type air conditioner, and FIG. 1B illustrates a plurality of indoor units and outdoor units as an example of the ceiling type air conditioner. An air conditioner according to an embodiment of the present invention will be described taking the stand type or the ceiling type shown in the drawing as an example. However, the type of air conditioner is not limited thereto, and may be used in a wall-mounted type, and may also be used in an integrated type having no distinction between an outdoor unit and an indoor unit, and the form thereof is not limited to the drawings.

Referring to FIG. 1, first, as shown in FIG. 1A, an air conditioner includes an indoor unit 200 for discharging harmonized air to an indoor unit and an outdoor unit 100 connected to the indoor unit 200 and disposed outdoors. It includes.

The outdoor unit 100 and the indoor unit 200 may be connected to a refrigerant pipe, and cold air may be discharged from the indoor unit 200 to the room according to the circulation of the refrigerant. The indoor unit 200 may be provided in plural and may be connected to the outdoor unit 100 in plural.

In addition, as shown in b of FIG. 1, the air conditioner includes a plurality of indoor units 200 and at least one outdoor unit 100 connected to the plurality of indoor units 200. The plurality of indoor units 200 and the outdoor unit 100 may be connected by a refrigerant pipe, or may be connected by a cable that allows communication to transmit or receive a control command according to a predetermined communication method.

The air conditioner may further include a remote controller (not shown) for controlling the plurality of indoor units 200 and the outdoor unit 100. The air conditioner may further include a local controller (not shown) connected to the indoor unit 200 to input a user's command and output an operation state of the indoor unit 200.

In addition to the indoor unit 200 and the outdoor unit 100, the air conditioner may further include a plurality of units such as a ventilation unit, an air cleaning unit, a humidification unit, a dehumidification unit, and a heater. In addition, the remote controller (not shown), the lighting unit, the alarm unit, etc. may be connected to each other to operate.

The indoor unit 200 includes a discharge port 250 for discharging the heat-exchanged air. In addition, the discharge port 250 may be provided with wind direction control means for opening and closing the discharge port 250 and controlling the direction of the discharged air. In addition, the indoor unit 200 may adjust the amount of air discharged from the discharge port 250. In this case, a plurality of vanes may be provided at the plurality of air intake ports and the plurality of air discharge ports. The vane may open or close at least one of the plurality of air inlets and the plurality of air outlets, and may guide the flow direction of air.

In addition, the indoor unit 200 may further include a display unit for displaying an operation state and setting information of the indoor unit 200 and an input unit for inputting setting data. When the user inputs a driving operation command of the air conditioner through the input unit, the outdoor unit 100 may be operated in a cooling mode or a heating mode in response to the input command. In addition, the outdoor unit 100 may supply a refrigerant to the plurality of indoor units 100, and the air flow direction may be guided along the discharge port 250 of the indoor unit 100 to control an indoor environment.

Hereinafter, the system of the indoor unit 200 and the outdoor unit 100 of the air conditioner will be described.

2 is a view showing a system of an air conditioner according to the present invention.

Referring to FIG. 2, the outdoor unit 100 extracts only an outdoor heat exchanger 110 for exchanging outdoor air and a refrigerant, an outdoor blower 120 for blowing outdoor air to the outdoor heat exchanger 110, and a gas refrigerant. Accumulator 140, compressor 150 for compressing the gas refrigerant extracted from the accumulator 140, four-way valve 130 for switching the refrigerant flow and expansion valve that can be controlled according to the supercooling and superheating during the heating operation ( 160).

During the cooling operation of the air conditioner, the outdoor heat exchanger 110 may function as a condenser in which the gaseous refrigerant transferred to the outdoor heat exchanger 110 may be condensed by outdoor air. In addition, during the heating operation of the air conditioner, the outdoor heat exchanger 110 may function as an evaporator in which the liquid refrigerant transmitted to the outdoor heat exchanger 110 may be evaporated by the outdoor air.

The outdoor blower 120 is connected to the outdoor electric motor 122 generating power, and the outdoor fan 121 that is connected to the outdoor electric motor 122 and rotates by the power of the outdoor electric motor 122 to generate a blowing power. It includes.

In addition, the outdoor unit 100 may include two compressors therein. One of the two compressors may be an inverter compressor and the other may be a constant speed compressor. However, there is no limitation on the number of compressors or types of compressors.

The outdoor unit 100 may be provided in plurality. In detail, the outdoor unit 100 may include a main outdoor unit and an auxiliary outdoor unit. The main outdoor unit and the auxiliary outdoor unit may be connected to a plurality of indoor units 200. The main outdoor unit and the auxiliary outdoor unit may be driven by a request of at least one of the plurality of indoor units 200. First, when the main outdoor unit is operated according to the number of indoor units that are operated, and the capacity of the main outdoor unit is exceeded as the cooling or heating capacity is changed, the auxiliary outdoor unit may operate. That is, the operation number of the outdoor unit and the operation of the compressor provided in the outdoor unit may vary according to the required cooling or heating capacity.

The indoor unit 200 may include an indoor heat exchanger 210 for exchanging indoor air and a refrigerant, and an indoor blower 220 for blowing indoor air to the indoor heat exchanger 210.

During the cooling operation of the air conditioner, the indoor heat exchanger 210 may act as an evaporator through which the liquid refrigerant transferred to the indoor heat exchanger 210 may be evaporated by the indoor air. In addition, during the heating operation of the air conditioner, the indoor heat exchanger 210 may act as a condenser in which the gaseous refrigerant transferred to the indoor heat exchanger 210 may be condensed by indoor air.

The indoor blower 220 may include an indoor electric motor 222 that generates power and an indoor fan 221 that is connected to the indoor electric motor 222 and rotates by the indoor electric motor 222 to generate a blowing force. have. In addition, the air conditioner may be configured as a cooler for cooling the room, or may be configured as a heat pump for cooling or heating the room.

Hereinafter, the internal configuration of the outdoor unit 100 will be described.

3 is a view showing the configuration of an outdoor unit according to the present invention, Figure 4 is a block diagram of an air conditioner according to the present invention.

3 and 4, the outdoor unit 100, which is a component of the air conditioner, includes a housing 105 forming an exterior and a surface disposed on one surface of the housing 105 and circulating inside the housing 105. It may include an outdoor blower 120 for providing power so that the refrigerant is discharged to the outside and a circuit board 170 disposed inside the housing 105 and stores information related to the operation of the air conditioner.

The circuit board 170, the control unit 400 for controlling the operation of the outdoor unit 100 based on the communication unit (not shown) that can communicate with the noise measuring unit 300 and the information received through the communication unit (not shown). ) May be provided.

The noise measuring unit 300 may measure the noise generated by the outdoor unit 100. The noise measuring unit 300 includes a first noise measuring unit 310 disposed inside the outdoor unit 100 and a second noise measuring unit 320 disposed to be spaced apart from the outdoor unit 100 by a predetermined distance. It may include.

The first noise measuring unit 310 may be disposed in the outdoor blower 120 which is one component of the outdoor unit 100 or may be disposed in the outdoor heat exchanger 110. However, the position of the first noise measuring unit 310 is not limited thereto. In addition, the noise measuring unit 300 may be a wired microphone or a wireless microphone. However, the type of the noise measuring unit 300 is not limited thereto.

The control unit 400 may receive information related to the noise of the outdoor unit 100 measured by the noise measuring unit 300. In addition, the controller 400 may control an operation of the driver 440 for driving a component disposed in the outdoor unit 100 based on the information related to the noise. The driver 440 may drive a plurality of components disposed in the outdoor unit 100.

In detail, the driving unit 440 includes a fan driving unit 441 for driving the outdoor fan 121, a compressor driving unit 442 for driving the compressor 150, and an expansion valve driving unit 443 for driving the expansion valve 160. ) May be included.

In addition, the outdoor blower 120, the compressor 150, and the expansion valve 160 may be referred to as a noise generator because they are an influencing factor for generating noise of the outdoor unit 100.

Accordingly, the controller 400 may control the operation of the fan driver 441, the compressor driver 442, or the expansion valve driver 443 according to the noise generated by the noise generator.

In addition, the controller 400 may control the operation of the compressor driver 442 according to the current room temperature as well as the noise generated by the outdoor unit 100.

Specifically, the controller 400 may determine whether the temperature of the air discharged through the discharge port 250 is within a set temperature range and adjust the driving speed of the compressor driver 442. The temperature of the air discharged through the discharge port 250 may be measured by the temperature measuring unit 420. In addition, the information on the set temperature range may be stored in advance in the memory unit 410. The set temperature may be defined as an appropriate temperature of air discharged through the discharge port 250 preset by a user.

5 is a flowchart of an air conditioner according to the present invention.

Referring to FIG. 5, first, the noise measuring unit 300 may measure the noise generated by the outdoor unit 100 (S100). The noise measuring unit 300 may include a first noise measuring unit 310 disposed inside the outdoor unit 100 and a second noise measuring unit 320 disposed to be spaced apart from the outdoor unit 100 by a predetermined distance. have. However, only the first noise measuring unit 310 may be installed or only the second noise measuring unit 320 may be installed to measure the noise generated by the outdoor unit 100.

Information about the noise of the outdoor unit 100 measured by the noise measuring unit 300 may be transmitted to the control unit 400 (S200). The controller 400 may analyze the information to control components disposed in the outdoor unit 100.

First, the controller 400 may determine whether the noise belongs to the high frequency region for a preset time (S300). That is, the controller 400 may determine whether the frequency region of the noise is greater than or equal to the set frequency region by comparing the frequency region of the noise with a preset frequency region. The high frequency region means sound belonging to a high frequency region, and the frequency means the number of cycles that occur during one second. The set frequency may be stored in the memory unit 410 in advance.

The control unit 400 calculates the magnitude of the noise belonging to the high frequency region and the duration of the noise (S400). In addition, the controller 400 determines whether the noise level is greater than or equal to a first preset size (S500). The first set size may be a value that causes inconvenience to a user by noise generated by the outdoor unit 100. The first set size may be previously stored in the memory unit 410.

For example, the first predetermined size may be 70 dB. However, the value of the first set size is not limited thereto. If the magnitude of the noise is less than the first preset magnitude, the step S400 may be performed again.

Next, the controller 400 determines whether the time duration of the noise lasts for more than a first predetermined time (S600). The first setting time may be a value preset in the memory unit 410. For example, the first setting time may be 30 minutes. However, the value of the first set time is not limited thereto. If the time duration of the noise is less than the first preset time, the step S400 may be performed again.

If the magnitude of the noise and the duration of the noise are equal to or greater than the first set size and the first set time, respectively, the control unit 400 may generate the outdoor unit 100 by the noise generated by the outdoor blower 120. It may be determined that the noise is generated (S700).

In general, the noise generated by the outdoor blower 120 belongs to a high frequency region. Therefore, if noise is generated for a predetermined size and a predetermined time or more in the high frequency region, the controller 400 may determine that the noise is generated by the operation of the outdoor blower 120.

Therefore, the controller 400 may reduce the noise by controlling the operation of the outdoor blower 120 (S800). Specifically, the controller 400 may control the rotation speed of the outdoor fan 121 connected to the outdoor electric motor 122 by adjusting the driving of the outdoor electric motor 122 generating power. That is, the controller 400 may reduce the noise generated by the outdoor blower 120 by reducing the rotation speed of the outdoor fan 121.

In addition, the controller 400 may control the operation of the air conditioner according to the changed operation information (S900).

If it is determined in step S300 that the noise does not belong to the high frequency region for a preset time, the controller 400 may determine whether the noise belongs to the low frequency region for a preset time (S310). The low frequency region means a sound having a low frequency. That is, the controller 400 may determine whether the noise frequency is less than the set frequency.

If the noise belongs to the low frequency region for a predetermined time, the controller 400 may control the operation of the outdoor unit 100 based on the magnitude of the noise and the duration of the noise (S320). In addition, when the step S320 is terminated and the magnitude of the noise generated in the outdoor unit 100 is reduced, the controller 400 may control the step S900 or less to be performed.

If it is determined in step S310 that the noise does not belong to the low frequency region for a preset time, the controller 400 may determine that the noise has an irregular deviation without distinguishing the high frequency region and the low frequency region for a preset time. There is (S330).

Then, the controller 400 may control the operation of the outdoor unit 100 based on the information analyzed in step S330 (S340). In addition, when the step S340 is finished and the magnitude of the noise generated in the outdoor unit 100 is reduced, the controller 400 may control to perform the step S900 or less.

Hereinafter, a method of controlling the operation of the outdoor unit 100 by the controller 400 according to the noise generated by the outdoor unit 100 will be described.

FIG. 6 is a flowchart for describing operation S320 of FIG. 5.

Referring to FIG. 6, the controller 400 may determine that the frequency of the noise belongs to the low frequency region because the frequency of the noise generated by the outdoor unit 100 is less than the set frequency for a preset time.

The control unit 400 calculates the magnitude of the noise belonging to the low frequency region and the duration of the noise (S321). In addition, the controller 400 determines whether the noise level is greater than or equal to a second preset size (S322). The second set size may be a value that causes inconvenience to a user by noise generated by the outdoor unit 100. In addition, the second set size may be previously stored in the memory unit 410.

For example, the value of the second set size may be equal to the value of the first set size. However, the value of the second set size is not limited thereto. If the magnitude of the noise is less than the second preset magnitude, the step S321 may be performed again.

Next, the controller 400 may determine whether the time duration of the noise lasts for more than a second predetermined time (S323). The second setting time may be a value preset in the memory unit 410. For example, the value of the second set time may be the same as the value of the first set time. However, the value of the second set time is not limited thereto. If the duration of the noise is less than the second preset time, step S321 may be performed again.

If the magnitude of the noise and the duration of the noise are equal to or greater than the second set size and the second set time, respectively, the controller 400 makes noise of the outdoor unit 100 by the noise generated by the compressor 150. This may be determined to occur (S324).

In general, the noise generated by the compressor 150 belongs to the low frequency region. Therefore, if noise is generated for a predetermined size and a predetermined time or more in the low frequency region, the controller 400 may determine that the noise is generated by the operation of the compressor 150.

Therefore, the controller 400 may reduce the noise by adjusting the operating frequency of the compressor 150 (S325). However, the compressor 150 may be an influence factor for controlling the state of the refrigerant circulating in the air conditioner so that the cooling or heating function of the air conditioner is properly performed. Accordingly, the controller 400 may determine whether the indoor cooling or heating operation is properly performed to adjust the operating frequency of the compressor 150.

Specifically, the controller 400 may determine whether the temperature of the air discharged into the room through the discharge port 250 is within a set temperature range (S326). The set temperature may be defined as an appropriate temperature of air discharged into the room through the discharge port 250. The set temperature range may be previously stored in the memory unit 410.

For example, the controller 400 may reduce an operating frequency of the compressor 150 to reduce noise generated by the compressor 150. At this time, if the set temperature range is 22-25 degrees during the cooling operation of the air conditioner, the temperature of the air discharged through the discharge port 250 is increased by 27 degrees since the compressor 150 is driven according to the adjusted operating frequency. Can be. Then, the controller 400 may increase the operating frequency of the compressor 150 to control the indoor air to fall within the set temperature range.

Next, the air conditioner may perform an operation according to the changed operation information (S327).

FIG. 7 is a flowchart for describing operation S340 of FIG. 5.

Referring to FIG. 7, the noise may belong to a high frequency region having a predetermined frequency or more, or may belong to a high frequency region having a frequency less than the set frequency (S341). The set frequency may be stored in the memory unit 410 in advance.

On the basis of the result determined in step S341, the controller 400 calculates the magnitude of the noise and the duration of the noise (S342). In addition, the controller 400 determines whether the noise level is greater than or equal to a third preset size (S343). The third set size may be a value that causes inconvenience to a user due to noise generated in the outdoor unit 100. In addition, the third set size may be stored in the memory unit 410 in advance.

For example, the third preset size may be 40 dB. However, the value of the third set size is not limited thereto. If the magnitude of the noise is less than the third preset magnitude, the step S342 may be performed again.

Next, the controller 400 determines whether the noise duration lasts for more than a third predetermined time (S344). The third setting time may be a value preset in the memory unit 410. For example, the third set time may be 30 minutes. However, the value of the third set time is not limited thereto. If the duration of the noise is less than the third preset time, step S342 may be performed again.

If the magnitude of the noise and the duration of the noise are equal to or greater than the third set size and the third set time, respectively, the controller 400 determines that the noise is generated by the movement of the refrigerant passing through the refrigerant pipe. Can be.

In general, noise generated by the movement of the coolant may be irregularly distributed without distinguishing a high frequency region and a low frequency region. Therefore, if the noise is generated at a predetermined size and a predetermined time or more in an irregular distribution without distinguishing the high frequency region and the low frequency region, the controller 400 may determine that the noise is generated by the refrigerant moving along the refrigerant pipe. .

Therefore, the controller 400 may reduce the noise by adjusting the opening degree of the expansion valve 160 (S346). In detail, the controller 400 may reduce the noise generated by the movement of the refrigerant by reducing the opening degree of the expansion valve 160.

The controller 400 may analyze the noise generated by the outdoor unit 100. In addition, the controller 400 may control the outdoor blower 120, the compressor 150, and the expansion valve 160 based on the analyzed result. Therefore, the air conditioner according to the present invention has an effect of efficiently reducing the amount of noise generated in the outdoor unit 100.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: outdoor unit 120: outdoor blower
150: compressor 160: expansion valve
200: indoor unit 300: noise measurement unit
400: control unit 410: memory unit
440: drive unit

Claims (16)

A noise generator disposed inside the outdoor unit and generating noise in an operation process;
A noise measuring unit measuring noise generated by the noise generating unit;
A driving unit for driving the noise generator; And
It includes a control unit for adjusting the operation of the driving unit based on the information related to the noise measured by the noise measuring unit,
The information related to the noise,
At least one of information on a frequency range of the noise, information on a duration of noise according to the frequency range, and information on the magnitude of the noise,
The noise measuring unit includes at least one of a first noise measuring unit disposed inside the outdoor unit and a second noise measuring unit arranged to be spaced apart from the outdoor unit by a predetermined distance. The method of claim 1,
The control unit,
And controlling the operation of the driving unit when the duration of the noise is greater than or equal to a preset time and the magnitude of the noise is greater than or equal to a predetermined magnitude. The method of claim 2,
The drive unit,
An air conditioner including at least one of a fan driver for driving an outdoor blower, a compressor driver for driving a compressor, and an expansion valve driver for adjusting the opening degree of an expansion valve. The method of claim 3, wherein
If the frequency of the noise is determined to be above the set frequency for a preset time,
The control unit, the air conditioner for controlling the operation of the fan drive unit. The method of claim 3, wherein
If it is determined that the frequency of the noise is less than the set frequency for a preset time,
The control unit, the air conditioner for controlling the operation of the compressor drive unit. The method of claim 5, wherein
Further comprising a temperature measuring unit for measuring the temperature of the air discharged into the room,
The control unit,
And an air conditioner controlling the operation of the compressor driving unit so that the temperature calculated by the temperature measuring unit is within a set temperature range. The method of claim 6,
The set temperature is defined as a temperature preset by the user,
And a memory unit for storing information related to the set temperature range. The method of claim 3, wherein
If the frequency region of the noise belongs to the region above the set frequency and the region below the set frequency for a preset time,
The control unit, the air conditioner for controlling the opening degree of the expansion valve. delete Measuring the noise of the outdoor unit generated by the noise generating unit using a noise measuring unit;
Calculating a frequency of the noise by a controller;
Recognizing whether the magnitude of the noise is greater than or equal to a set magnitude and the duration of the noise is greater than or equal to a set time;
And controlling, by the controller, a driving unit to operate the noise generator,
The noise measuring unit includes at least one of a first noise measuring unit disposed inside the outdoor unit and a second noise measuring unit disposed to be spaced apart from the outdoor unit by a predetermined distance. The method of claim 10,
Calculating the frequency of the noise,
Storing the set frequency; And
And comparing the frequency of the noise with the set frequency for a preset time. The method of claim 11,
Controlling the drive unit,
Controlling at least one of: controlling a fan drive unit for driving the outdoor blower; controlling a compressor drive unit for driving the compressor; and controlling an expansion valve drive unit for adjusting the opening degree of the expansion valve. Control method. The method of claim 12,
Controlling the fan drive unit,
The control method of the air conditioner performed when the frequency of the noise is greater than the set frequency. The method of claim 12,
Controlling the compressor drive unit,
The control method of the air conditioner performed when the frequency of the noise is less than the set frequency. The method of claim 14,
Storing a set range of room temperature; And
Further comprising the step of measuring the temperature of the air discharged through the discharge port,
Controlling the compressor drive unit,
The control method of the air conditioner performed when the temperature of the air discharged through the discharge port is within the set range. The method of claim 12,
Controlling the expansion valve drive unit,
The control method of the air conditioner performed when the frequency region of the noise belongs to the region below the set frequency and the region above the set frequency.

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