KR20060018079A - Air conditioner controlling by bluetooth - Google Patents

Abstract

The present invention relates to an air conditioner controlled by a wireless communication to control each function of the air conditioner by using real-time wireless communication via Bluetooth between the indoor unit and the outdoor unit.

An air conditioner controlled by wireless communication according to the present invention is formed in a microcomputer of an indoor unit and electrically connected to each other, and an indoor wireless port for wirelessly transmitting each other while encoding and decoding data corresponding to each of the indoor unit and the outdoor unit, and the outdoor unit. It is formed in the control unit of the electrically connected to each other, characterized in that consisting of an outdoor wireless port for wireless communication with the indoor wireless port while encoding and decoding the corresponding data of the outdoor unit and the indoor unit, respectively.

   Air conditioner, Outdoor unit, Indoor unit, Wireless communication, Bluetooth

Description

   Air conditioner controlled by wireless communication

1 is a block diagram showing a connection relationship between the indoor unit and the outdoor unit of the conventional air conditioner.

Figure 2 is a block diagram showing a connection relationship between the indoor unit and the outdoor unit for wireless communication of the air conditioner according to the present invention.

* Description of the symbols for the main parts of the drawings *

10,110: Indoor 16,116: Microcomputer

17: indoor transceiver 20,120: outdoor unit

28,128: control unit 29: outdoor transmitting and receiving unit

30,130: refrigerant pipe 40: communication line

50: Finishing material 200: Indoor wireless port

300: outdoor wireless port

The present invention relates to an air conditioner controlled by wireless communication, and more particularly, to a wireless communication capable of controlling each function of an air conditioner by using real-time wireless communication via Bluetooth between an indoor unit and an outdoor unit. It relates to an air conditioner controlled by.

In general, an air conditioner using a cooling cycle converts a high pressure vapor refrigerant compressed in a compressor into a high pressure liquid refrigerant through a condenser, and then converts the liquid refrigerant through an evaporator into a low pressure liquid refrigerant. The vaporization absorbs the heat around the evaporator, and cools the room temperature by providing cold air to the room by driving the indoor fan.

At this time, the low-pressure steam refrigerant converted through the evaporator is introduced into the compressor again.

In addition, such an air conditioner is provided with a four-way valve in the compressor portion (in detail, the position at which the refrigerant flows out) to reverse the circulation of the refrigerant, thereby converting the endothermic action of the evaporator into a heat dissipation action and hot air into the room. A device capable of providing both of these functions, that is, cooling and heating, is also called a HEAT-PUMP TYPE AIR CONDITIONER.

As shown in the first, the general air conditioner is composed of the indoor unit 10 and the outdoor unit 20, the indoor unit 10 is the operation panel 11, LCD 12, the room temperature sensor 13, the indoor fan 14, the evaporator 15, the microcomputer 16 and the indoor transmitter and receiver 17, the outdoor unit 20 is an outdoor air temperature sensor 21, a compression motor 22, a compressor 23, a four-way valve ( 24, the condenser 25, the expansion valve 26, the outdoor fan 27, the control unit 28 and the outdoor transmission and reception unit 29.

On the other hand, the operation signal through the operation panel 11, which is operated by the user's manual operation and the outdoor temperature detected by the indoor temperature and the outside temperature sensor 21 through the indoor temperature sensor 13, the microcomputer 16 The microcomputer 16 displays an operation state of the air conditioner corresponding to the operation signal from the operation panel 11 on the LCD (LIQUID CRYSTAL DISPLAY, 12), and at the same time based on the indoor temperature and the outdoor temperature. Generate a control signal to perform the corresponding function.

Accordingly, the operation state of the air conditioner through the operation panel 11 is displayed on the LCD 12 based on the display control signal from the microcomputer 16, and from the microcomputer 16 based on the difference between the indoor temperature and the outdoor temperature. Based on the control signal of the compressor motor 22 is driven to convert the refrigerant into a high-pressure steam refrigerant through the compressor 23, provided to the condenser 25 through the four-way valve 24, then high pressure in the condenser 25 It is converted into the liquid refrigerant of the guided through the expansion valve 26 to the refrigerant pipe 30 is provided to the evaporator 15 in the indoor unit (10).

At this time, the heat dissipation action in the condenser 25 is promoted by the outdoor fan 27 driven based on the switching control signal from the microcomputer 16.

Then, the high pressure liquid refrigerant provided through the refrigerant pipe 30 from the expansion valve 26 of the outdoor unit 20 is vaporized through the evaporator 15 in the indoor unit 10, and the switching control from the microcomputer 16 is controlled. The indoor air introduced by the indoor fan 14 driven based on the signal is absorbed by the evaporator 15, and cold air is discharged into the room.

In addition, the microcomputer 16 in the indoor unit 10 transmits an operation signal from the operation panel 11 and an operating state of the indoor temperature and the indoor fan 14 detected by the indoor temperature sensor 13. ) And generates a control signal for performing a function corresponding to the data from the outdoor unit 20 provided from the indoor transmission / reception unit 17.

The indoor transmitter / receiver 17 in the indoor unit 10 encodes the data provided from the microcomputer 16 and transmits the data to the outdoor unit 20 while decoding the data provided from the outdoor transmitter / receiver 29 in the outdoor unit 20. Provided to the microcomputer 16.

The outdoor transmitter / receiver 29 in the outdoor unit 20 decodes the encoded data provided from the indoor transmitter / receiver 17 in the indoor unit 10 to the controller 28 and at the same time controls the controller in the outdoor unit 20. Data provided from (28) is encoded and transmitted to the indoor transmission / reception unit 17 in the indoor unit 10.

At this time, the indoor transmission and reception unit 17 and the outdoor transmission and reception unit 29 are connected by a communication line 40.

In addition, the control unit 28 generates a control signal for performing a function corresponding to the data from the indoor unit 10 provided from the outdoor transmitting and receiving unit 29 and at the same time the outside air temperature detected by the outside air temperature sensor 21 Provides the operating state of the indoor fan 14 to the outdoor transceiver (29).

In addition, the refrigerant pipe 30 and the communication line 40 are protected by being wrapped in the finishing material 50 so as not to be exposed to the outside between the indoor unit 10 and the outdoor unit 20.

However, since the indoor unit and the outdoor unit as described above are connected by the refrigerant tube and the communication line, when the distance between the indoor unit and the outdoor unit is far, the refrigerant tube and the communication line are placed outwards, so that the aesthetics are not good and the space utilization is reduced. .

In addition, since the conventional refrigerant pipe and the communication line have to be wound and protected with a finish material in order not to be exposed to the external environment, there is a problem in that the work is cumbersome.

The present invention has been proposed to solve the above problems of the prior art, by providing a Bluetooth inside the indoor unit and the outdoor unit to transmit data by mutual wireless communication to control each other, so that the communication line does not need to clean up the aesthetics and the user It is an object of the present invention to provide an air conditioner controlled by wireless communication that increases the convenience of.

The air conditioner controlled by the wireless communication according to the present invention for achieving the above object is formed in the microcomputer of the indoor unit is electrically connected to each other, and wirelessly transmitting to each other while encoding and decoding the respective data of the indoor unit and outdoor unit An indoor wireless port and an outdoor wireless port formed in the controller of the outdoor unit and electrically connected to each other and configured to wirelessly communicate with the indoor wireless port while encoding and decoding data corresponding to the outdoor unit and the indoor unit, respectively.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention will be described in more detail.

 2 is a block diagram illustrating a connection relationship between an indoor unit and an outdoor unit for wireless communication of an air conditioner according to the present invention.

As shown in FIG. 2, the air conditioner controlled by wireless communication according to the present invention displays an operation signal input to the indoor unit on the LCD 112 based on an external operation signal, detects an indoor temperature, Compared with the signal of the microcomputer 116 and then driving the compression motor 122 through the controller of the outdoor unit 120 and simultaneously driving the outdoor fan 127 to promote the heat dissipation of the condenser 125, the indoor In the air conditioner for driving the fan 114 to discharge the cool air through the evaporator 115 to the room, formed in the microcomputer 116 of the indoor unit 110 is electrically connected to each other, the indoor unit 110 and the outdoor unit The indoor wireless port 200 for wirelessly transmitting to each other while encoding and decoding the corresponding data of the 120 and the control unit 128 of the outdoor unit 120 are electrically connected to each other, the outdoor unit 120 and The outdoor wireless port 300 is configured to wirelessly communicate with the indoor wireless port 200 while encoding and decoding data corresponding to each of the indoor unit 110.

Indoor unit 110 according to the present invention is the operation panel 111, LCD 112, the room temperature sensor 113, the indoor fan 114, the evaporator 115, the microcomputer 116 and the indoor wireless port 200 It is composed.

In addition, the outdoor unit 120 according to the present invention includes an outdoor air temperature sensor 121, a compression motor 122, a compressor 123, a four-way valve 124, a condenser 125, an expansion valve 126, and an outdoor fan 127. ), The control unit 128 and the outdoor wireless port 300.

At this time, the refrigerant is converted into high-pressure steam refrigerant through the compressor 123 in accordance with the operation of the compression motor 122, provided to the condenser 125 through the four-way valve 124, then the high-pressure liquid refrigerant in the condenser 125 It is converted to and guided to the refrigerant pipe 130 through the expansion valve 126 is provided to the evaporator 115 in the indoor unit (110).

In addition, the high-pressure liquid refrigerant provided through the refrigerant pipe 130 is vaporized through the evaporator 115 in the indoor unit 110 and driven based on a switching control signal from the microcomputer 116. Heat is absorbed by the indoor air introduced by the evaporator 115, and cold air is discharged into the room.

In this case, the refrigerant pipe 130 is made of a material having excellent durability that is not deformed or corroded by an external environment.

Meanwhile, the indoor wireless port 200 in the indoor unit 110 encodes data provided from the microcomputer 116 and wirelessly transmits the data provided from the microcomputer 116 to the outdoor unit 120 while simultaneously providing data provided from the outdoor wireless port 3020 in the outdoor unit 120. And decodes it to the microcomputer 116.

In addition, the outdoor wireless port 300 in the outdoor unit 120 decodes the encoded data provided from the indoor wireless port 200 in the indoor unit 110 and provides the decoded data to the control unit 128, and at the same time, the control unit in the outdoor unit 120. The data provided from 128 is encoded and wirelessly transmitted to the indoor wireless port 200 in the indoor unit 110.

In addition, the indoor wireless port 200 and the outdoor wireless port 300 is a Bluetooth for transmitting a signal through two-way wireless communication in real time within a set frequency.

The indoor wireless port 200 is embedded in the microcomputer 116 of the indoor unit 110, and the outdoor wireless port 300 is embedded in the control unit 128 of the outdoor unit 120.

The operation of the air conditioner controlled by the wireless communication according to the present invention having the configuration as described above will be described in more detail.

First, the indoor signal detected by the operation signal through the operation panel 111 and the indoor temperature sensor 113 and the outdoor temperature sensor 121 that is operated by the user's manual operation is the microcomputer 116. The microcomputer 116 displays the operation state of the air conditioner corresponding to the operation signal from the operation panel 111 on the LCD 112, and simultaneously operates the indoor temperature, the outdoor temperature, and the indoor fan 114. Provides in real time to the indoor wireless port (200).

Therefore, based on the display control signal from the microcomputer 116, the operation state of the air conditioner through the operation panel 111 is displayed on the LCD 112, and the indoor temperature and the outdoor temperature through the indoor wireless port 200. And an operating state of the indoor fan 114 is wirelessly transmitted to the outdoor wireless port 300 in the outdoor unit 120 in real time.

Then, the data transmitted and wirelessly communicated from the indoor wireless port 200 in the indoor unit 110 is received and decoded through the outdoor wireless port 300 in the outdoor unit 120, and then provided to the controller 128. 128 generates a control signal for performing a corresponding function based on data from the indoor unit 110 provided through the outdoor wireless port 300.

On the other hand, while the corresponding function is being performed based on the control signal from the control unit 128, the outside air temperature detected by the outside air temperature sensor 121 and the driving state of the compression motor 122 and the outdoor fan 127 The operating state is provided to the outdoor wireless port 300 in real time through the control unit 128, the outdoor temperature and the driving state of the compressor 123 and the operating state of the outdoor fan 127 are encoded through the outdoor wireless port 399 It is transmitted to the indoor wireless port 200 in the indoor unit 110, and performs the functions of the indoor unit 110 and the outdoor unit 120 in real time.

As described above, according to the air conditioner controlled by wireless communication according to the present invention, since each function of the indoor unit and the outdoor unit is performed through data communication wirelessly by embedding Bluetooth in each of the indoor unit and the outdoor unit, the wiring work is eliminated. Eliminates the hassle, improves the aesthetics, and eliminates the communication line has the effect of reducing the production cost and installation time by not using a finish to prevent external exposure.

Claims (2)

Display the operation signal input to the indoor unit based on the external operation signal on the LCD, detect the indoor temperature and compare it with the outside temperature, and then drive the compressed motor through the controller of the outdoor unit according to the signal of the microcomputer and simultaneously operate the outdoor fan. In the air conditioner to drive the heat dissipation action of the condenser, and to drive the indoor fan to discharge the cool air through the evaporator to the room, An indoor wireless port formed at the microcomputer of the indoor unit and electrically connected to each other, and wirelessly transmitting to each other while encoding and decoding data corresponding to each of the indoor unit and the outdoor unit; Is formed in the control unit of the outdoor unit and electrically connected to each other, by wireless communication, characterized in that it comprises an outdoor wireless port for wireless communication with the indoor wireless port while encoding and decoding the corresponding data of the outdoor unit and the indoor unit, respectively Controlled air conditioner. The method of claim 1, The indoor wireless port and the outdoor wireless port is an air conditioner controlled by wireless communication, characterized in that the two-way communication in real time (Bluetooth).

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