KR102198487B1 - Air conditioner and method thereof - Google Patents

Abstract

The present invention relates to an air conditioner. An air conditioner according to an embodiment of the present invention is connected to a first communication unit having a variable resistance whose resistance value is changed, a second communication unit that transmits and receives data between the first communication unit and the first communication unit, and is connected to the first communication unit. And a control unit for setting a communication speed of, and the control unit controls the first communication unit to perform communication with the second communication unit according to a first communication rate, and based on a result of performing communication according to the first communication rate Thus, it is possible to determine whether to change the resistance value of the variable resistor. Accordingly, even when the communication speeds of the indoor unit and the outdoor unit connected to the communication are different, communication performance may be improved by changing the communication speed and/or the resistance value of the current limiting resistor. In addition, various embodiments are possible.

Description

Air conditioner and its control method {AIR CONDITIONER AND METHOD THEREOF}

The present invention relates to an air conditioner and a control method thereof, and more particularly, to an air conditioner capable of improving communication performance between an indoor unit and an outdoor unit, and a control method thereof.

The air conditioner is installed to provide a more comfortable indoor environment to humans by controlling the indoor temperature by discharging cold and hot air into the room, and purifying the indoor air in order to create a pleasant indoor environment. In general, an air conditioner includes an indoor unit configured as a heat exchanger and installed indoors, and an outdoor unit configured with a compressor and a heat exchanger to supply refrigerant to the indoor unit.

The air conditioner is operated for cooling or heating according to the flow of the refrigerant. During cooling operation, high-temperature, high-pressure liquid refrigerant is supplied from the outdoor unit's compressor through the outdoor unit's heat exchanger to the indoor unit, and the refrigerant expands and vaporizes in the indoor unit's heat exchanger, reducing the temperature of the surrounding air, and rotating the indoor unit fan As a result, cold air is discharged into the room. During heating operation, high-temperature and high-pressure gas refrigerant is supplied to the indoor unit from the compressor of the outdoor unit, and the air warmed by the energy released by the heat exchanger of the indoor unit liquefies the high-temperature and high-pressure gas refrigerant to the indoor unit according to the operation of the indoor unit fan. Is discharged.

The indoor unit and the outdoor unit provided in the air conditioner may be connected to each other to perform communication. For example, the indoor unit and the outdoor unit may communicate with each other at a communication speed capable of transmitting and receiving data of 150 bits per second (150 bits per second; 150 bps), or a communication speed capable of transmitting and receiving data of 1200 bits per second. (1200 bit per second; 1200 bps) can also communicate with each other.

Meanwhile, a communication unit circuit required for performing communication, which is provided in the indoor unit and the outdoor unit, may include circuit elements corresponding to communication speed. For example, the current limiting resistance of the communication unit circuit for a communication speed of 150 bps and the current limiting resistance of the communication unit circuit for a communication speed of 1200 bps may be resistance elements having different resistance values.

At this time, when the communication speeds of the indoor unit and the outdoor unit are different, for example, an indoor unit communicating at a communication speed of 150 bps and an outdoor unit communicating at a communication rate of 1200 bps are connected to communicate, or, communication of 1200 bps. When an indoor unit that communicates at a speed and an outdoor unit that communicates at a communication speed of 150 bps are connected to communicate with each other, there is a problem that communication performance is significantly deteriorated.

An object of the present invention is an air conditioner capable of improving communication performance by changing a communication speed of any one of the indoor unit and the outdoor unit and/or a resistance value of the current limiting resistance when the communication speeds of the indoor unit and the outdoor unit are different, and It is to provide its control method.

In order to achieve the above object, the air conditioner according to various embodiments of the present invention includes a communication unit circuit including a variable resistance capable of changing a resistance value as a current limiting resistance, and according to a result of performing the communication, the indoor unit and the outdoor unit are By including a control unit capable of changing the communication speed and/or the resistance value of the variable resistor, communication performance can be improved even when an indoor unit and an outdoor unit having different communication speeds are connected.

In order to achieve the above object, an air conditioner according to various embodiments of the present invention includes a first communication unit having a variable resistance whose resistance value is changed, a second communication unit for transmitting and receiving data between the first communication unit and the first communication unit, and a first communication unit. And a control unit connected to the communication unit to set a communication speed of the first communication unit, and the control unit controls the first communication unit to perform communication with the second communication unit according to the first communication speed, and the first communication speed It may be characterized in that it is determined whether or not to change the resistance value of the variable resistor based on the result of performing communication according to.

In order to achieve the above object, a method for controlling an air conditioner according to various embodiments of the present invention includes an operation of performing communication between a first communication unit and a second communication unit according to a first communication speed, and a first communication speed. Based on a result of performing communication according to the control unit, an operation of determining whether to change a resistance value of a variable resistor included in the first communication unit may be performed.

According to various embodiments of the present disclosure, communication performance may be improved by changing a communication speed and/or a resistance value of a current limiting resistor even when communication speeds of an indoor unit and an outdoor unit connected for communication are different.

According to various embodiments of the present disclosure, an indoor unit and an outdoor unit that communicate at different communication speeds are connected to each other to prevent damage to elements included in the air conditioner that may occur as communication is performed.

According to various embodiments of the present invention, since relatively simple circuit elements such as resistors and relays are used instead of complex and expensive circuit elements, the implementation is easy and cost is low.

1 is a view showing an example of the configuration of an air conditioner according to an embodiment of the present invention.
2 is a schematic diagram of an outdoor unit and an indoor unit according to an embodiment of the present invention.
3 is a block diagram of an air conditioner according to an embodiment of the present invention.
4A and 4B are circuit diagrams of an air conditioner according to an embodiment of the present invention.
5 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention.
6 is a flowchart illustrating a method of controlling an air conditioner according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. In the drawings, in order to clearly and briefly describe the present invention, the illustration of parts not related to the description is omitted, and the same reference numerals are used for identical or extremely similar parts throughout the specification.

The suffixes "module" and "unit" for the constituent elements used in the following description are given in consideration of only the ease of writing in the present specification, and do not impart a particularly important meaning or role by themselves. Therefore, the "module" and "unit" may be used interchangeably with each other.

In the present application, terms such as "comprises" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or additional possibility of additions or numbers, steps, actions, components, parts, or combinations thereof, is not preliminarily excluded.

In addition, in this specification, terms such as first and second may be used to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another.

1 is a view showing an example of the configuration of an air conditioner according to an embodiment of the present invention.

Referring to FIG. 1, an air conditioner 100 according to an embodiment of the present invention may include an indoor unit 31 and an outdoor unit 21 connected to the indoor unit 31.

The indoor unit 31 can be applied to any of, for example, a stand type air conditioner, a wall-mounted type air conditioner, and a ceiling type air conditioner. In the drawing, the stand type indoor unit 31 is illustrated.

Meanwhile, the air conditioner 100 may further include at least one of, for example, a ventilation device, an air cleaning device, a humidifier, and a heater, and operates in conjunction with the operation of the indoor unit 31 and the outdoor unit 21 can do.

The outdoor unit 21 includes, for example, a compressor (not shown) that receives and compresses a refrigerant, an outdoor heat exchanger (not shown) that heats the refrigerant with outdoor air, and extracts gaseous refrigerant from the supplied refrigerant to a compressor. It may include a supply accumulator (not shown) and a four-way valve (not shown) for selecting a flow path of the refrigerant according to the heating operation. In addition, the outdoor unit 21 may further include, for example, a plurality of sensors, valves, and oil recovery devices.

The outdoor unit 21 may supply the refrigerant to the indoor unit 31 by compressing or exchanging heat according to a setting by operating a compressor and an outdoor heat exchanger provided, for example. The outdoor unit 21 may be driven by, for example, a remote controller (not shown) or a demand of the indoor unit 31. In this case, as the cooling/heating capacity is varied in response to the driven indoor unit 31, the number of operation of the outdoor unit and the number of operation of the compressor installed in the outdoor unit may be varied.

In this case, the outdoor unit 21 may supply the compressed refrigerant to the connected indoor unit 31.

The indoor unit 31 may receive, for example, a refrigerant from the outdoor unit 21 and discharge hot and cold air into the room. The indoor unit 31 may include, for example, an indoor heat exchanger (not shown), an indoor unit fan (not shown), an expansion valve (not shown) for expanding the supplied refrigerant, and a plurality of sensors (not shown). have.

At this time, the outdoor unit 21 and the indoor unit 31 are connected by, for example, a communication line to transmit and receive data, and the outdoor unit and the indoor unit are connected to a remote controller (not shown) by wire or wirelessly, and a remote controller (not shown) It can also operate under the control of.

A remote control (not shown) may be connected to the indoor unit 31, for example, to transmit a user's control command to the indoor unit 31, and receive and display status information of the indoor unit 31. In this case, the remote control may communicate by wire or wirelessly according to a connection type with the indoor unit 31.

2 is a schematic diagram of an outdoor unit and an indoor unit according to an embodiment of the present invention. Detailed descriptions of contents overlapping with those described in FIG. 1 will be omitted.

Referring to FIG. 2, the air conditioner 100 according to an embodiment of the present invention can be largely divided into an indoor unit 31 and an outdoor unit 21.

The outdoor unit 21 includes, for example, a compressor 102b serving to compress a refrigerant, a compressor motor 102b driving the compressor 102b, and an outdoor heat exchanger serving to dissipate the compressed refrigerant. An outdoor blower 105 composed of a device 104, an outdoor fan 105a disposed on one side of the outdoor heat exchanger 104 to promote heat dissipation of refrigerant, and an electric motor 105b rotating the outdoor fan 105a, , An expansion mechanism 106 for expanding the condensed refrigerant, a cooling/heating switching valve 110 for changing the flow path of the compressed refrigerant, and a refrigerant having a constant pressure after removing moisture and foreign substances by temporarily storing the gasified refrigerant. It may include an accumulator 103 supplied to the compressor.

The indoor unit 31 includes, for example, an indoor heat exchanger 108 disposed indoors to perform a cooling/heating function, and an indoor fan disposed at one side of the indoor heat exchanger 108 to promote heat dissipation of a refrigerant. It may include an indoor blower 109 composed of an electric motor 109b that rotates the indoor fan 109a and the indoor fan 109a.

At least one indoor heat exchanger 108 may be installed, for example. As the compressor 102, at least one of an inverter compressor and a constant speed compressor may be used, for example.

In addition, the air conditioner 100 may be configured with a cooler that cools the room, for example, or may be configured with a heat pump that cools or heats the room.

3 is a block diagram of an air conditioner according to an embodiment of the present invention.

Referring to FIG. 3, the air conditioner 100 may include an outdoor unit 21 and an indoor unit 31.

The outdoor unit 21 may include, for example, an outdoor unit communication unit 210, an outdoor unit control unit 220, an outdoor unit memory 230, and/or an outdoor unit output unit 240.

The outdoor unit communication unit 210 may include, for example, at least one communication module. The outdoor unit communication unit 210 may transmit/receive data to and from the indoor unit communication unit 310, for example.

On the other hand, the communication method between the indoor unit 31 and the outdoor unit 21 is a communication method using a power line, a serial communication method (eg, RS-485 communication), a wired communication method through a refrigerant pipe, as well as Wi-Fi. , Bluetooth, beacon, Zigbee, etc. may be a wireless communication method. In addition, the outdoor unit communication unit 210 may transmit/receive data by accessing a server connected to an external network, for example.

The outdoor unit communication unit 210 may include, for example, at least one current limiting resistor capable of limiting a current flowing through a circuit. The current limiting resistance provided in the outdoor unit communication unit 210 may be, for example, a variable resistance whose resistance value can be changed. For example, the variable resistor may include a first resistor, a switching element connected in series with the first resistor, and a first resistor and a second resistor connected in parallel with the switching element. Meanwhile, the resistance value of the variable resistor may be changed, for example, according to the control of the outdoor unit controller 220.

The switching element provided in the variable resistor may be a relay that is turned on or off based on a current flowing through the relay coil, for example. The switching element provided in the variable resistor may be, for example, a transistor element. The switching element may be, for example, a bipolar junction transistor (BJT) or a field effect transistor (FET).

The outdoor unit controller 220 may be connected to each component provided in the outdoor unit 21, for example. The outdoor unit controller 220 may, for example, transmit and receive signals to and from each component provided in the outdoor unit 21 and control the overall operation of each component. For example, the outdoor unit control unit 220 may control a resistance value of a variable resistor included in the outdoor unit communication unit 210 to be changed.

The outdoor unit controller 220 may communicate with the indoor unit 31 through, for example, the outdoor unit communication unit 210. For example, the outdoor unit control unit 220 may transmit and receive data between the indoor unit 31 and each other through the outdoor unit communication unit 210.

The outdoor unit controller 220 may set a communication speed for performing communication with the indoor unit 31, for example. The outdoor unit control unit 220 sets any one of, for example, a first communication rate (eg, 1200 bps) and a second communication rate (eg, 150 bps) as a communication rate for performing communication with the indoor unit 31. I can.

The outdoor unit control unit 220 may determine, for example, a result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210. The outdoor unit controller 220 may, for example, check whether a result of performing communication with the indoor unit 31 satisfies a preset criterion. Here, the preset criterion for the result of performing communication may include, for example, a communication success rate, a response speed, an error occurrence rate, and the like. For example, if the communication success rate is 50% or more, the result of performing the communication may satisfy a preset criterion. Alternatively, for example, if the communication success rate is 90% or more, the result of performing the communication may satisfy a preset criterion. Meanwhile, a preset criterion for a result of performing communication may be changed by a user.

The outdoor unit controller 220 may determine a communication speed for performing communication with the indoor unit 31 based on, for example, a result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210. For example, the outdoor unit controller 220 may determine the first communication speed as a communication speed for performing communication with the indoor unit 31 when the result of performing communication according to the first communication speed satisfies a preset criterion. have. For example, the outdoor unit control unit 220 may change the communication speed for performing communication with the indoor unit 31 to a second communication speed when the result of performing communication according to the first communication speed does not satisfy a preset criterion. I can.

The outdoor unit control unit 220, based on the result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210, for example, whether to change the resistance value of the current limiting resistor provided in the outdoor unit communication unit 210 You can decide whether or not. For example, the outdoor unit control unit 220 may change a resistance value of the current limiting resistor provided in the outdoor unit communication unit 210 when the result of performing communication according to the first communication speed does not satisfy a preset criterion. For example, the outdoor unit control unit 220 may change the resistance value of the current limiting resistor provided in the outdoor unit communication unit 210 when the result of performing communication according to the second communication speed does not satisfy a preset criterion.

The outdoor unit controller 220 may change a resistance value of the variable resistor by controlling switching of a switching element included in the variable resistor provided in the outdoor unit communication unit 210, for example. For example, when the switching element is a relay, the outdoor unit controller 220 may control a current value of a current flowing through the relay coil. For example, when the switching element is a bipolar junction transistor, the outdoor unit controller 220 may output a control signal to the base terminal of the switching element. For example, when the switching element is a field effect transistor, the outdoor unit controller 220 may output a control signal to the gate terminal of the switching element. Meanwhile, the control signal input to the switching element may be, for example, a PWM-type base input current or a gate input voltage.

The outdoor unit control unit 220 determines whether a communication state between the outdoor unit 21 and the indoor unit 31 is bad, for example, based on a result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210. I can judge.

The outdoor unit memory 230 may store various data for overall operation of the outdoor unit 21, such as, for example, a program for processing or controlling the outdoor unit control unit 220. The outdoor unit memory 230 may store, for example, data related to performing communication with the indoor unit 31. For example, the outdoor unit memory 230 may store data related to a communication speed, a communication success rate, a response speed, and an error occurrence rate.

The outdoor unit memory 230 may store data transmitted and received through the outdoor unit communication unit 210, for example.

The outdoor unit output unit 240 may output, for example, an operating state of the outdoor unit 21.

The outdoor unit output unit 240 may include, for example, a display (not shown), a light emitting diode (LED), and the like, and the operation of the outdoor unit 21 such as a driving state and an error occurrence through the display The status can be displayed. For example, when the outdoor unit control unit 210 determines that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the outdoor unit control unit 210 transmits data regarding the communication state defect through a display provided in the outdoor unit output unit 240. Can be displayed. Or, for example, when it is determined that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the outdoor unit control unit 220 may display a communication state through flashing of a light emitting diode provided in the outdoor unit output unit 240. Data on defects can also be displayed.

The outdoor unit output unit 240 may include, for example, a speaker, a buzzer, and the like, may output sound effect for the driving state of the outdoor unit 21, and may output a predetermined warning sound when an error occurs. For example, when it is determined that the communication state between the outdoor unit 21 and the indoor unit 31 is poor, the outdoor unit control unit 220 may output a warning sound through a speaker provided in the outdoor unit output unit 240. .

The indoor unit 31 may include, for example, an indoor unit communication unit 310, an indoor unit control unit 320, an indoor unit memory 330, and/or an indoor unit output unit 340.

The indoor unit communication unit 310 may include, for example, at least one communication module, and may transmit and receive data to and from each other through a communication line 40 connected to the outdoor unit communication unit 210. The indoor unit communication unit 310 may communicate with the outdoor unit communication unit 210 using, for example, a power line.

The indoor unit communication unit 310 may transmit/receive data by accessing a server connected to an external network, for example.

The indoor unit communication unit 310 may include at least one current limiting resistor capable of limiting a current flowing through a circuit, for example. The current limiting resistor provided in the indoor unit communication unit 310 may be, for example, a variable resistor whose resistance value can be changed. For example, the variable resistor may include a third resistor, a switching element connected in series with the third resistor, and a third resistor and a fourth resistor connected in parallel with the switching element. Meanwhile, the resistance value of the variable resistance provided in the indoor unit 31 may be changed, for example, according to the control of the indoor unit controller 320.

The indoor unit controller 320 may be connected to each component provided in the indoor unit 31, for example. The indoor unit controller 320 may transmit/receive signals to and from each component provided in the indoor unit 31, for example, and control the overall operation of each component. For example, the indoor unit control unit 320 may control the resistance value of the variable resistance provided in the indoor unit communication unit 310 to be changed.

The indoor unit control unit 320 may communicate with the outdoor unit 21 through, for example, the indoor unit communication unit 310. For example, the indoor unit control unit 320 may transmit and receive data between the outdoor unit 21 and each other through the indoor unit communication unit 310.

The indoor unit controller 320 may set a communication speed for performing communication with the outdoor unit 21, for example. The indoor unit controller 320 sets any one of, for example, a first communication rate (eg, 1200 bps) and a second communication rate (eg, 150 bps) as a communication rate for performing communication with the outdoor unit 21. I can.

The indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 through, for example, the indoor unit communication unit 310. The indoor unit controller 320 may check whether a result of performing communication with the outdoor unit 21, for example, satisfies a preset criterion or does not meet a preset criterion. Meanwhile, a preset criterion for a result of performing communication may be changed by a user.

The indoor unit controller 320 may determine a communication speed for performing communication with the outdoor unit 21 based on, for example, a result of performing communication with the outdoor unit 21 through the indoor unit communication unit 310. For example, the indoor unit controller 320 may determine the first communication speed as the communication speed for performing communication with the outdoor unit 21 when the result of performing communication according to the first communication speed satisfies a preset criterion. have. For example, the indoor unit controller 320 may change the communication speed for performing communication with the outdoor unit 21 to a second communication speed when the result of performing communication according to the first communication speed does not satisfy a preset criterion. I can.

The indoor unit control unit 320, for example, whether to change the resistance value of the current limiting resistor provided in the indoor unit communication unit 310 based on the result of performing communication with the outdoor unit 21 through the indoor unit communication unit 310 You can decide whether or not. For example, the indoor unit controller 320 may change the resistance value of the current limiting resistor provided in the indoor unit communication unit 310 when the result of performing communication according to the first communication speed does not satisfy a preset criterion. For example, the indoor unit controller 320 may change the resistance value of the current limiting resistor provided in the indoor unit communication unit 310 when the result of performing communication according to the second communication speed does not satisfy a preset criterion.

The indoor unit controller 320 may change a resistance value of the variable resistor by controlling switching of a switching element included in the variable resistor provided in, for example, the indoor unit communication unit 310. For example, when the switching element is a relay, the indoor unit controller 320 may control a current value of a current flowing through the relay coil. For example, when the switching element is a bipolar junction transistor, the indoor unit controller 320 may output a control signal to the base terminal of the switching element. For example, when the switching element is a field effect transistor, the indoor unit controller 320 may output a control signal to the gate terminal of the switching element. Meanwhile, the control signal input to the switching element may be, for example, a PWM-type base input current or a gate input voltage.

The indoor unit controller 320 determines whether the communication state between the outdoor unit 21 and the indoor unit 31 is bad, based on a result of performing communication with the outdoor unit 21 through the indoor unit communication unit 310, for example. I can judge.

The indoor unit memory 330 may store various data for overall operation of the indoor unit 31, such as, for example, a program for processing or controlling the indoor unit controller 320. The indoor unit memory 330 may store, for example, data related to performing communication with the outdoor unit 21. For example, the indoor unit memory 330 may store data related to a communication speed, a communication success rate, a response speed, and an error occurrence rate.

The indoor unit memory 330 may store, for example, data transmitted and received through the indoor unit communication unit 310.

The indoor unit output unit 340 may output, for example, an operating state of the indoor unit 31.

The indoor unit output unit 340 may include, for example, a display (not shown), a light emitting diode (LED), and the like, and an operation of the indoor unit 31 such as a driving state and an error occurrence through the display The status can be displayed. For example, when the indoor unit control unit 320 determines that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the indoor unit control unit 320 transmits data on the communication state defect through a display provided in the indoor unit output unit 340. Can be displayed. Or, for example, when it is determined that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the indoor unit control unit 320 may display a communication state through blinking of a light emitting diode provided in the indoor unit output unit 340. Data on defects can also be displayed.

The indoor unit output unit 340 may include, for example, a speaker, a buzzer, and the like, may output sound effect for the driving state of the indoor unit 31, and may output a predetermined warning sound when an error occurs. For example, when it is determined that the communication state between the outdoor unit 21 and the indoor unit 31 is poor, the indoor unit control unit 320 may output a warning sound through a speaker provided in the indoor unit output unit 340. .

4A and 4B are circuit diagrams of an air conditioner according to an embodiment of the present invention. Detailed descriptions of contents overlapping with those described in FIG. 3 will be omitted.

Referring to FIG. 4A, the indoor unit communication unit 310 provided in the indoor unit 31 may include a variable resistor 315 whose resistance value can be changed as a current limiting resistor. For example, the variable resistor 315 includes a first resistor R1, a switching element SW1 connected in series with the first resistor, and a second resistor R1 connected in parallel with the switching element SW1. (R2) may be included.

Meanwhile, the resistance value of the variable resistance provided in the indoor unit 31 may be changed, for example, according to the control of the indoor unit controller 320. For example, under the control of the indoor unit controller 320, the switching element SW1 may be turned on/off.

Meanwhile, the outdoor unit communication unit 210 provided in the outdoor unit 21 may include a third resistance element R3 as a current limiting resistor. In this case, the second resistance element and the third resistance element may have the same resistance value, for example.

Meanwhile, the resistance value of the variable resistor 315 when the switching element SW1 provided in the variable resistor 315 is turned on and the first resistor element R1 and the second resistor element R2 are connected in parallel May be, for example, a resistance value corresponding to the first communication speed (eg, 1200 bps). In addition, the resistance values of the second resistance element and the third resistance element may be, for example, resistance values corresponding to the second communication speed (eg, 150 bps).

The outdoor unit 21 and the indoor unit 31 can communicate with each other by transmitting and receiving data, for example. The outdoor unit 21 and the indoor unit 31 may each transmit data through the output terminal TX2 of the outdoor unit communication unit 210 and the output terminal TX1 of the indoor unit communication unit 310, respectively, and the outdoor unit communication unit 210 Data may be received through the input terminal RX2 of) and the input terminal RX1 of the indoor unit communication unit 310, respectively.

The outdoor unit control unit 220 and the indoor unit control unit 320 may set a communication speed for performing communication with each other, for example.

The indoor unit controller 320 may set, for example, the first communication speed as a communication speed for performing communication with the outdoor unit 21. On the other hand, the indoor unit control unit 320, for example, when the communication speed for performing communication with the outdoor unit 21 is set to the first communication speed, the first resistance element (R1) and the second resistance element (R2) Switching of the switching element SW1 may be controlled to be connected in parallel.

Meanwhile, the outdoor unit controller 220 may set the second communication speed as, for example, a communication speed for performing communication with the indoor unit 31.

The indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 through, for example, the indoor unit communication unit 310. The indoor unit controller 320 may, for example, check whether a result of performing communication with the outdoor unit 21 satisfies a preset criterion.

The indoor unit controller 320 may determine a communication speed for performing communication with the outdoor unit 21 based on, for example, a result of performing communication with the outdoor unit 21 through the indoor unit communication unit 310. For example, the indoor unit controller 320 may determine the first communication speed as the communication speed for performing communication with the outdoor unit 21 when the result of performing communication according to the first communication speed satisfies a preset criterion. have. For example, the indoor unit controller 320 may change the communication speed for performing communication with the outdoor unit 21 to a second communication speed when the result of performing communication according to the first communication speed does not satisfy a preset criterion. I can.

The indoor unit control unit 320, for example, whether to change the resistance value of the current limiting resistor provided in the indoor unit communication unit 310 based on the result of performing communication with the outdoor unit 21 through the indoor unit communication unit 310 You can decide whether or not. For example, when the result of performing communication according to the first communication speed does not satisfy a preset criterion, the indoor unit controller 320 may not be connected in parallel with the first resistance element R1 and the second resistance element R2. It is possible to control the switching of the switching element (SW1). Meanwhile, the indoor unit controller 320 switches so that the first resistance element R1 and the second resistance element R2 are not connected in parallel when the result of performing communication according to the second communication speed does not satisfy a preset criterion. Switching of the device SW1 may be controlled.

Referring to FIG. 4B, the outdoor unit communication unit 210 provided in the outdoor unit 21 may include a variable resistor 215 that is a current limiting resistor and whose resistance value can be changed. For example, the variable resistor 215 includes a third resistor R3, a switching element SW2 connected in series with the third resistor, and a fourth resistor connected in parallel with the third resistor R3 and the switching element SW2. (R4) may be included.

Meanwhile, the resistance value of the variable resistor provided in the outdoor unit 21 may be changed, for example, according to the control of the outdoor unit controller 220. For example, under the control of the outdoor unit controller 220, the switching element SW2 may be turned on/off.

Meanwhile, the indoor unit communication unit 310 provided in the indoor unit 31 may include a second resistance element R2 as a current limiting resistor. In this case, the second resistance element and the third resistance element may have the same resistance value, for example.

Meanwhile, the resistance value of the variable resistor 215 when the switching element SW2 provided in the variable resistor 215 is turned on and the third resistor element R3 and the fourth resistor element R4 are connected in parallel May be, for example, a resistance value corresponding to the first communication speed (eg, 1200 bps). In addition, the resistance values of the second resistance element and the third resistance element may be, for example, resistance values corresponding to the second communication speed (eg, 150 bps).

The outdoor unit 21 and the indoor unit 31 can communicate with each other by transmitting and receiving data, for example. The outdoor unit 21 and the indoor unit 31 may each transmit data through the output terminal TX2 of the outdoor unit communication unit 210 and the output terminal TX1 of the indoor unit communication unit 310, respectively, and the outdoor unit communication unit 210 Data may be received through the input terminal RX2 of) and the input terminal RX1 of the indoor unit communication unit 310, respectively.

The outdoor unit control unit 220 and the indoor unit control unit 320 may set a communication speed for performing communication with each other, for example.

The outdoor unit controller 220 may set, for example, a first communication speed (eg, 1200 bps) as a communication speed for performing communication with the indoor unit 31. On the other hand, the outdoor unit control unit 220, for example, when the communication speed for performing communication with the indoor unit 31 is set to the first communication speed, the third resistance element R3 and the fourth resistance element R4 Switching of the switching element SW2 may be controlled to be connected in parallel.

Meanwhile, the indoor unit controller 320 may set the second communication speed as, for example, a communication speed for performing communication with the outdoor unit 21.

The outdoor unit control unit 220 may determine, for example, a result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210. The outdoor unit controller 220 may, for example, check whether a result of performing communication with the indoor unit 31 satisfies a preset criterion.

The outdoor unit controller 220 may determine a communication speed for performing communication with the indoor unit 31 based on, for example, a result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210. For example, the outdoor unit controller 220 may determine the first communication speed as a communication speed for performing communication with the indoor unit 31 when the result of performing communication according to the first communication speed satisfies a preset criterion. have. For example, the outdoor unit control unit 220 may change the communication speed for performing communication with the indoor unit 31 to a second communication speed when the result of performing communication according to the first communication speed does not satisfy a preset criterion. I can.

The outdoor unit control unit 220, based on the result of performing communication with the indoor unit 31 through the outdoor unit communication unit 210, for example, whether to change the resistance value of the current limiting resistor provided in the outdoor unit communication unit 210 You can decide whether or not. For example, when the result of performing communication according to the first communication speed does not satisfy a preset criterion, the outdoor unit control unit 220 may not be connected in parallel with the third resistance element R3 and the fourth resistance element R4. It is possible to control the switching of the switching element (SW2). On the other hand, the outdoor unit controller 220 switches so that the third resistance element R3 and the fourth resistance element R4 are not connected in parallel when the result of performing communication according to the second communication speed does not satisfy a preset criterion. Switching of the device SW2 may be controlled.

5 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention. In describing the flowchart of FIG. 5, it is described that the indoor unit communication unit 310 has a variable resistance and the indoor unit control unit 320 operates according to a control method, but the present invention is not limited thereto, and the outdoor unit communication unit 210 ) Has a variable resistor, and the outdoor unit control unit 220 can be understood to operate according to the control method.

The indoor unit controller 320 may perform communication with the outdoor unit 21 through the indoor unit communication unit 310 according to a first communication speed (eg, 1200 bps) in operation S501. The indoor unit controller 320 may transmit and receive data to and from the outdoor unit 21 through the indoor unit communication unit 310, for example, according to a first communication speed. Meanwhile, when the indoor unit controller 320 communicates with the outdoor unit 21 according to the first communication speed, the variable resistor 315 may be connected in parallel with the first resistance element R1 and the second resistance element R2. Switching of the switching element SW1 provided in) may be controlled.

In operation S502, the indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 according to the first communication speed through the indoor unit communication unit 310. The indoor unit controller 320 may, for example, check whether a result of performing communication with the outdoor unit 21 according to the first communication speed satisfies a communication success rate, which is a preset criterion, or does not satisfy the communication success rate.

The indoor unit controller 320 may determine the first communication speed as a communication speed for performing communication with the outdoor unit 21 when the result of performing communication according to the first communication speed satisfies a preset criterion in operation S503. have. For example, as a result of performing communication according to the first communication speed, if the communication success rate is 90% or more, the indoor unit controller 320 may determine the first communication speed as a communication speed for performing communication with the outdoor unit 21. have.

In operation S504, when the result of performing communication according to the first communication speed does not satisfy a preset criterion, the indoor unit control unit 320 sets the communication speed for performing communication with the outdoor unit 21 to a second communication speed (eg. : 150 bps). For example, as a result of performing communication according to the first communication speed, if the communication success rate is less than 90%, the indoor unit controller 320 may change the communication speed for performing communication with the outdoor unit 21 to the second communication speed. have.

The indoor unit controller 320 may change the resistance value of the current limiting resistor provided in the indoor unit communication unit 310 when the result of performing communication according to the first communication speed does not satisfy a preset criterion in operation S505. For example, as a result of performing communication according to the first communication speed, when the communication success rate is less than 90%, the indoor unit controller 320 prevents the first resistance element R1 and the second resistance element R2 from being connected in parallel. Switching of the switching element SW1 can be controlled.

The indoor unit controller 320 may communicate with the outdoor unit 21 through the indoor unit communication unit 310 according to the second communication speed in operation S506. The indoor unit controller 320 may transmit and receive data to and from the outdoor unit 21 through the indoor unit communication unit 310, for example, according to a second communication speed.

In operation S507, the indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 according to the second communication speed through the indoor unit communication unit 310. The indoor unit controller 320 may check whether, for example, a result of performing communication with the outdoor unit 21 according to the second communication speed satisfies a communication success rate, which is a preset criterion, or does not satisfy the communication success rate.

In operation S508, the indoor unit controller 320 may determine that the communication state between the outdoor unit 21 and the indoor unit 31 is defective when the result of performing communication according to the second communication speed does not satisfy a preset criterion. have. For example, as a result of performing communication according to the second communication speed, if the communication success rate is less than 90%, it may be determined that the communication state between the outdoor unit 21 and the indoor unit 31 is poor.

On the other hand, the indoor unit 31, when it is determined that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the indoor unit control unit 320 may display data related to the communication state defect through the display, Data regarding a communication state defect may be displayed through the blinking of the light emitting diode. On the other hand, when the indoor unit 31 determines that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the indoor unit controller 320 may output a warning sound through a speaker or the like.

In operation S509, the indoor unit controller 320 may determine the second communication speed as a communication speed for performing communication with the outdoor unit 21 when the result of performing communication according to the second communication speed satisfies a preset criterion. have. For example, as a result of performing communication according to the second communication speed, when the communication success rate is 90% or more, the indoor unit controller 320 may determine the second communication speed as a communication speed for performing communication with the outdoor unit 21. have.

6 is a flowchart illustrating a method of controlling an air conditioner according to an embodiment of the present invention. In the flowchart of FIG. 6, the indoor unit communication unit 310 is described as having a variable resistance and the indoor unit control unit 320 operates according to a control method, but the present invention is not limited thereto, and the outdoor unit communication unit 210 ) Has a variable resistor, and the outdoor unit control unit 220 can be understood to operate according to the control method.

The indoor unit controller 320 may perform communication with the outdoor unit 21 through the indoor unit communication unit 310 according to a first communication speed (eg, 1200 bps) in operation S601. The indoor unit controller 320 may transmit and receive data to and from the outdoor unit 21 through the indoor unit communication unit 310, for example, according to a first communication speed. Meanwhile, when the indoor unit controller 320 communicates with the outdoor unit 21 according to a first communication speed (eg, 1200 bps), the first resistance element R1 and the second resistance element R2 are connected in parallel. Switching of the switching element SW1 provided in the variable resistor 315 may be controlled as much as possible.

The indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 through the indoor unit communication unit 310 in operation S602. The indoor unit controller 320 may, for example, check whether a result of performing communication with the outdoor unit 21 according to the first communication speed satisfies a communication success rate, which is a preset criterion, or does not satisfy the communication success rate.

The indoor unit controller 320 may determine the first communication speed as the communication speed for performing communication with the outdoor unit 21 when the result of performing communication according to the first communication speed satisfies a preset criterion in operation S603. have. For example, as a result of performing communication according to the first communication speed, if the communication success rate is 90% or more, the indoor unit controller 320 may determine the first communication speed as a communication speed for performing communication with the outdoor unit 21. have.

In operation S604, when the result of performing communication according to the first communication speed does not satisfy a preset criterion, the indoor unit control unit 320 sets the communication speed for performing communication with the outdoor unit 21 to a second communication speed (eg. : 150 bps). For example, as a result of performing communication according to the first communication speed, if the communication success rate is less than 90%, the indoor unit controller 320 may change the communication speed for performing communication with the outdoor unit 21 to the second communication speed. have.

In operation S605, the indoor unit controller 320 may communicate with the outdoor unit 21 through the indoor unit communication unit 310 according to the second communication speed. The indoor unit controller 320 may transmit and receive data to and from the outdoor unit 21 through the indoor unit communication unit 310, for example, according to a second communication speed. In this case, the indoor unit controller 320 may communicate with the outdoor unit 21 according to the second communication speed while the first resistance element R1 and the second resistance element R2 are connected in parallel.

The indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 according to the second communication speed through the indoor unit communication unit 310 in operation S606. The indoor unit control unit 320, for example, in a state in which the first resistance element R1 and the second resistance element R2 are connected in parallel, the result of performing communication with the outdoor unit 21 according to the second communication speed, It is possible to check whether the communication success rate, which is a set criterion, is satisfied, or whether the communication success rate is not satisfied. Meanwhile, the preset reference for operation S606 may be different from the preset reference for operation S602, for example. For example, a preset criterion for operation S602 may be a communication success rate of 90%, while a preset criterion for operation S606 may be a communication success rate of 50%.

The indoor unit controller 320, in operation S607, when the result of performing communication according to the second communication speed in a state in which the first resistance element R1 and the second resistance element R2 are connected in parallel meets a preset criterion , The second communication speed for a preset time may be determined as a communication speed for performing communication with the outdoor unit 21. For example, as a result of performing communication according to the second communication speed while the first resistance element R1 and the second resistance element R2 are connected in parallel, when the communication success rate is 50% or more, the indoor unit controller 320 The second communication speed for a preset time may be determined as a communication speed for performing communication with the outdoor unit 21. In addition, the indoor unit control unit 320, in a state in which the first resistance element R1 and the second resistance element R2 are connected in parallel for a predetermined time, the outdoor unit through the indoor unit communication unit 310 according to the second communication speed. (21) and can communicate. In this case, the preset time may be changed according to, for example, a user input.

On the other hand, the indoor unit control unit 320, for example, branches to operation S601 when a preset time has elapsed, and performs communication with the outdoor unit 21 again through the indoor unit communication unit 310 according to the first communication speed. can do.

The indoor unit controller 320, in operation S608, in a state in which the first resistance element R1 and the second resistance element R2 are connected in parallel, the result of performing communication according to the second communication speed does not satisfy a preset criterion. If not, the resistance value of the current limiting resistor provided in the indoor unit communication unit 310 may be changed. For example, when the communication success rate is less than 50% as a result of performing communication according to the second communication speed while the first resistance element R1 and the second resistance element R2 are connected in parallel, the indoor unit controller 320 Switching of the switching element SW1 may be controlled so that the first resistance element R1 and the second resistance element R2 are not connected in parallel.

The indoor unit controller 320 may perform communication with the outdoor unit 21 through the indoor unit communication unit 310 according to the second communication speed in operation S609. The indoor unit control unit 320, for example, in a state in which the first resistance element R1 and the second resistance element R2 are not connected in parallel, according to the second communication speed, the outdoor unit through the indoor unit communication unit 310 ( 21) and data can be transmitted and received.

The indoor unit controller 320 may determine a result of performing communication with the outdoor unit 21 according to the second communication speed through the indoor unit communication unit 310 in operation S610. The indoor unit controller 320 is, for example, a result of performing communication with the outdoor unit 21 according to the second communication speed in a state in which the first resistance element R1 and the second resistance element R2 are not connected in parallel. A, it is possible to check whether the communication success rate, which is a preset criterion, is satisfied or the communication success rate is not satisfied.

In operation S611, the indoor unit controller 320 may determine that a communication state between the outdoor unit 21 and the indoor unit 31 is bad when the result of performing communication according to the second communication speed does not satisfy a preset criterion. have. For example, if the communication success rate is less than 90% as a result of performing communication according to the second communication speed in a state in which the first resistance element R1 and the second resistance element R2 are not connected in parallel, the outdoor unit 21 ) And the indoor unit 31 may be determined to be defective.

On the other hand, the indoor unit 31, when it is determined that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the indoor unit control unit 320 may display data related to the communication state defect through the display, Data regarding a communication state defect may be displayed through the blinking of the light emitting diode. On the other hand, when the indoor unit 31 determines that the communication state between the outdoor unit 21 and the indoor unit 31 is defective, the indoor unit controller 320 may output a warning sound through a speaker or the like.

The indoor unit controller 320 may determine the second communication speed as a communication speed for performing communication with the outdoor unit 21 when the result of performing communication according to the second communication speed satisfies a preset criterion in operation S612. have. For example, in a state in which the first resistance element R1 and the second resistance element R2 are not connected in parallel, and as a result of performing communication according to the second communication speed, if the communication success rate is 90% or more, the indoor unit controller ( 320) may determine the second communication speed as a communication speed for performing communication with the outdoor unit 21.

On the other hand, when the second communication speed is determined as the communication speed for performing communication with the outdoor unit 21 in operation S612, the indoor unit control unit 320 may have the first resistance element R1 and the second resistance element R2 in parallel. In an unconnected state, communication with the outdoor unit 21 may be performed through the indoor unit communication unit 310 according to the second communication speed.

According to various embodiments of the present disclosure, a communication speed and/or a resistance value of a variable resistor may be changed based on a result of performing communication between the outdoor unit 21 and the indoor unit 31. Therefore, when the indoor unit and the outdoor unit having current limiting resistors of different resistor groups communicate at different communication speeds and the communication performance is significantly deteriorated, the communication performance is improved by changing the communication speed and/or the resistance value of the current limiting resistor. I can make it.

The accompanying drawings are only for making it easier to understand the embodiments disclosed in the present specification, and the technical idea disclosed in the present specification is not limited by the accompanying drawings, and all changes and equivalents included in the spirit and scope of the present invention It should be understood to include water or substitutes.

Likewise, while depicting the actions in the drawings in a specific order, it should not be understood that such actions should be performed in that particular order or sequential order shown, or that all illustrated actions should be performed in order to obtain a desired result. . In certain cases, multitasking and parallel processing can be advantageous.

In addition, although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. In addition, various modifications are possible by those of ordinary skill in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

Claims (12)

A first communication unit including a variable resistor whose resistance value is changed;
A second communication unit for transmitting and receiving data to and from the first communication unit; And
A control unit connected to the first communication unit and configured to set a communication speed of the first communication unit,
The control unit,
In accordance with the first communication speed, the first communication unit controls to perform communication with the second communication unit,
When a result of performing communication according to the first communication speed satisfies a preset first criterion, a communication speed of the first communication unit is determined as the first communication speed,
When the result of performing communication according to the first communication speed does not satisfy the first criterion, the communication speed of the first communication unit is changed to a second communication speed,
In accordance with the second communication speed, controlling the first communication unit to perform communication with the second communication unit,
When a result of performing communication according to the second communication speed satisfies a preset second criterion, a communication speed of the first communication unit for a preset time is determined as the second communication speed,
When a result of performing communication according to the second communication speed does not satisfy the second criterion, the resistance value of the variable resistor is controlled to be changed,
An air conditioner, wherein a communication success rate corresponding to the first criterion is higher than a communication success rate corresponding to the second criterion. The method of claim 1,
The variable resistor is,
A first resistance element;
A switching element connected in series to the first resistance element; And
And a second resistance element connected in parallel to the first resistance element and the switching element,
The control unit,
And controlling the switching of the switching element to change the resistance value of the variable resistance. delete delete delete The method of claim 1,
The control unit,
When the resistance value of the variable resistor is changed, controlling the first communication unit to perform communication with the second communication unit again according to the second communication speed,
When a result of performing communication again according to the second communication speed satisfies the first criterion, a communication speed of the first communication unit is determined as the second communication speed,
When a result of performing communication again according to the second communication speed does not satisfy the first criterion, it is determined that a communication state between the first communication unit and the second communication unit is poor. In the control method of an air conditioner having a first communication unit, a second communication unit and a control unit,
Performing communication between the first communication unit and the second communication unit according to a first communication speed; And
Determining, by the control unit, a communication speed of the first communication unit as the first communication speed when the result of performing communication according to the first communication speed satisfies a preset first criterion;
When a result of performing the communication according to the first communication speed does not satisfy the first criterion, the control unit changing the communication speed of the first communication unit to a second communication speed;
Performing communication between the first communication unit and the second communication unit according to the second communication speed;
When a result of performing communication according to the second communication speed satisfies a preset second criterion, determining, by the controller, a communication speed of the first communication unit as the second communication speed for a preset time; And
When a result of performing communication according to the second communication speed does not satisfy the second criterion, the control unit includes an operation of changing a resistance value of a variable resistor provided in the first communication unit,
The communication success rate corresponding to the first criterion is higher than the communication success rate corresponding to the second criterion. delete delete delete The method of claim 7,
The operation of determining whether to change the resistance value of the variable resistor,
When the resistance value of the variable resistor is changed, performing communication again between the first communication unit and the second communication unit according to the second communication speed;
When a result of performing communication again according to the second communication speed satisfies the first criterion, determining, by the control unit, a communication speed of the first communication unit as the second communication speed; And
If the result of performing the communication again according to the second communication speed does not satisfy the first criterion, the control unit further comprises an operation of determining that a communication state between the first communication unit and the second communication unit is poor. Control method of an air conditioner, characterized in that. The method of claim 7,
The variable resistor is,
A first resistance element;
A switching element connected in series to the first resistance element; And
And a second resistance element connected in parallel to the first resistance element and the switching element.

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