KR0168250B1 - Transmission reception method of control signal for airconditioner - Google Patents

Abstract

The present invention relates to a method of transmitting and receiving a control signal of an air conditioner, and when the control signal is transmitted from the remote controller to the indoor unit, the control signal is repeatedly repeated as the first control signal of the first frequency and the second control signal of the second frequency. There is a very excellent effect of accurately transmitting a control signal from the remote controller to the indoor unit by sending a heart, and accurately receiving a control signal transmitted from the remote controller in the indoor unit.

Description

Method of transmitting and receiving control signal of air conditioner

1 is a control circuit block diagram of an air conditioner according to an embodiment of the present invention.

2 is a flowchart of a control signal transmission method for transmitting from a remote controller to an indoor unit in a method for transmitting / receiving a control signal of an air conditioner according to an embodiment of the present invention.

3 is a flowchart of a control signal receiving method for receiving a control signal transmitted from a remote controller to an indoor unit in the indoor unit in the method for transmitting and receiving a control signal of an air conditioner according to an embodiment of the present invention.

4A is a waveform diagram of a control signal transmitted from a remote controller to an indoor unit in a method for transmitting / receiving a control signal of an air conditioner according to an embodiment of the present invention.

Figure 4b is a waveform diagram of a control signal received at the indoor unit when receiving the control signal transmitted from the remote controller in the indoor unit in the method for transmitting and receiving the control signal of the air conditioner according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

2: remote controller 14: indoor unit

16: conversion / transmission circuit

The present invention relates to a method for transmitting and receiving a control signal of an air conditioner, in particular

The present invention relates to a method for transmitting and receiving a control signal of an air conditioner capable of accurately transmitting a control signal to a indoor unit from a remote controller.

The conventional method of transmitting and receiving a control signal of an air conditioner recognizes a user's operation command, reads data corresponding to the user's operation command from the first memory, and reads the data read from the memory having a first frequency. Converting to a first control signal and transmitting the first control signal from the remote controller to the indoor unit.

By the way, in the method of transmitting and receiving the control signal of the air conditioner configured as described above, when the wireless control signal is transmitted from the remote controller to the indoor unit, the control signal having a frequency is transmitted only once, so that the control signal has no noise. When inserted, a control signal having a different content from the operation command input by the user to the remote controller was transmitted to the indoor unit.

Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to accurately transmit a control signal from a remote controller to an indoor unit, and in the indoor unit, an air conditioner capable of accurately receiving a control signal transmitted from the remote controller. The present invention provides a method for transmitting and receiving a control signal.

In order to achieve the above object, a method of transmitting and receiving a control signal of an air conditioner according to the present invention recognizes a user's operation command, reads data corresponding to the user's operation command from the memory, and removes the data read from the memory. And converting the first control signal having the first frequency and the second control signal having the second frequency into the first control signal and the second control signal, respectively, from the remote controller to the indoor unit.

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

As shown in FIG. 1, the remote controller 2 which wirelessly transmits a user's operation command to the indoor unit inputs a user's operation command to the first control means 4 and the first control means 4. Key input means (6), first power supply means (8) for supplying a DC voltage to the first control means (4) and the key input means (6), and the first power supply means (8). A first oscillation circuit 10 which receives a voltage from the first oscillation circuit and oscillates to output a high frequency of a first frequency, and a second oscillation circuit that receives a voltage from the first power supply means 8 and oscillates to output a high frequency of a second frequency (2) converts the data output from the first control means 4 into a control signal of the first frequency and a control signal of the second frequency, and sequentially converts the converted first control signal and the second control signal. Conversion / transmission circuit 16 for transmitting from remote controller 2 to indoor unit 14 And first display means 18 for receiving a display signal relating to an operating state from the first control means 4 and displaying the operating state of air conditioning.

The indoor unit 14 receiving the control signal transmitted from the remote controller 2 receives the second control means 20 and the control signal transmitted from the conversion / transmission circuit 16 of the remote controller 2. Receiving means 22, an operation selection switch 24 for inputting an operation selection command of one of 'automatic', 'cooling' and 'remote controller' to the first control means 4, and the second control A second power supply means 26 for supplying a DC voltage to the means 20, an indoor temperature detection means 28 for detecting an indoor temperature to input an indoor temperature to the second control means 20, and an indoor humidity Indoor humidity detecting means (30) for detecting indoor humidity so as to be input to the second control means (20), and a load for driving the compressor and the indoor fan motor according to the control signal output from the second control means (20). Receive the display signal output from the driving means 32 and the second control means 20 Standing 'operation', 'reserved' consists of the second display means 34 for displaying a state of operation, 'blowing'.

Hereinafter, a method of transmitting and receiving a control signal of an air conditioner according to an embodiment of the present invention will be described in association with the air conditioner according to an embodiment of the present invention configured as described above.

In Figs. 2 and 3, S denotes a step.

As an initial condition for the explanation of the operation, it is assumed that a DC voltage is supplied from the first power supply means 8 to the first control means 4. It is also assumed that a DC voltage is supplied from the second power supply means 26 to the second control means 20.

First, in step S1, the user inputs an operation command to the key input means 6. Then, an operation command is input from the key input means 6 to the first control means 4. The first control means 4 then recognizes the operation instruction of the user.

Next, in step S2, the first control means 4 reads data corresponding to the user's operation command from the memory of the first control means 4 in order to send the user's operation command to the indoor unit.

Next, in step S3, data corresponding to a user's operation command is output from the first control means 4 to the conversion / transmission circuit 16. Then, the data is loaded on the high frequency of the first frequency output from the first oscillation circuit 10 and converted into a first control signal of high frequency having the first frequency as shown in FIG. 4A. The first frequency is 38 KHZ, for example.

Next, in step S4, the first control signal is transmitted from the conversion / transmission circuit 16 to the receiving means 22 of the indoor unit 14.

Next, in step S5, data corresponding to a user's operation command is output from the first control means 4 to the conversion / transmission circuit 16. The data is then loaded on the high frequency of the second frequency output from the second oscillation circuit 12 and converted into a second high frequency control signal having the second frequency as shown in FIG. 4A. The second frequency is, for example, 76 KHZ.

Next, in step S6, the second control signal is transmitted from the conversion / transmission circuit 16 to the receiving means 22 of the indoor unit 14.

The first control means 4 then terminates the transmission program for the user's operation command.

A method of sequentially receiving the first control signal and the second control signal transmitted from the remote controller 2 in the indoor unit 14 will be described with reference to FIG. 3.

In step S21, the receiving means 22 of the indoor unit 14 receives the first control signal and the second control signal transmitted from the conversion / transmission circuit 16 of the remote controller 2. Next, the first control signal and the second control signal as shown in FIG. 4B are output from the receiving means 22 of the indoor unit 14 to the second control means 20.

Next, in step S22, the first control signal and the second control signal output from the conversion / transmission circuit 16 of the remote controller 2 are divided into a lead pulse and a data pulse, respectively.

Next, in step S23, the first control means 4 determines whether the first control signal is official data by analyzing the read pulse and the data pulse of the first control signal. As a result of this determination, when it is determined that the first control signal is official data, the process proceeds to step S24 (if YES).

In step S24, the second control means 20 recognizes the first control signal as formal data.

Next, in step S25, the second control means 20 stores the first control signal in a first address of a memory of the second control means 20.

In step S26, the second control means 20 determines whether the second control signal is official data by analyzing the read pulse and the data pulse of the second control signal. As a result of this determination, in the case where it is determined that the second control signal is official data, the process proceeds to step S27 (if YES).

In step S27, the second control means 20 recognizes the second control signal as formal data.

Next, in step S28, the second control means 20 stores the second control signal in a second address of the memory of the second control means 20.

Next, in step S29, it is determined whether the first control signal stored in the first address of the memory of the second control means 20 and the second control signal stored in the second address of the second memory coincide with each other. do. As a result of this determination, the first control signal stored in the first address of the memory of the second control means 20 and the second control signal stored in the second address of the memory of the second control means 20 are If it is determined that they coincide with each other (YES), the flow proceeds to step S30.

In step S30, the second control means 20 determines that the first control signal is correct data.

Next, in step S31, a control signal is output from the second control means 20 to the load driving means 32 in accordance with the first control signal. Then, a voltage is applied from the load driving means 32 to the compressor and the indoor fan motor so that the indoor air is harmonized by operating the compressor and the indoor fan motor.

Next, in step S32, the second control means 20 determines whether or not a DC voltage is supplied from the second power supply means 26 to the second control means 20. As a result of this determination, when it is determined from the second power supply means 26 that the direct current voltage is not supplied to the second control means 20, the reception program of the control signal for the air conditioner is set (if NO). Quit.

On the other hand, when it is determined in step S23 that the first control signal is not the official data, the process proceeds to step S33 (in the case of NO).

In step S33, the second control means 20 does not recognize the first control signal and the second control signal as accurate data.

Next, in step S34, the second control means 20 extinguishes the first control signal and the second control signal. Next, the flow advances to step S32 to determine whether or not a DC voltage is supplied from the second power supply means 26 to the second control means 20 as described above.

On the other hand, when it is determined in step S26 that the second control signal is not the official data, the process proceeds to the step S33 (if NO), in which the first control signal and the second control signal are correct as described above. By not recognizing, the first control signal and the second control signal are extinguished.

On the other hand, the second control stored in the first control signal stored in the first address of the memory of the second control means 20 and the second address of the memory of the second control means 20 in the step S29. If it is determined that the signals do not coincide with each other (if NO), the flow advances to step S33, where the first control signal and the second control signal are not recognized as correct data as described above. And extinguish the second control signal.

On the other hand, in the case where it is determined in step S32 that the DC voltage is supplied from the second power supply means 26 to the second control means 20, the flow proceeds to the step S21 (in the case of YES) as described above. Likewise, the reception means 22 of the indoor unit 14 receives a control signal transmitted from the remote controller 2.

As described above, according to the method of transmitting and receiving a control signal of the air conditioner according to the present invention, when the control signal is transmitted from the remote controller to the indoor unit, the control signal is transmitted to the first control signal of the first frequency and the second control of the second frequency. By repeatedly transmitting the signal, there is a very excellent effect of accurately transmitting the control signal from the remote controller to the indoor unit.

When the control signal is transmitted from the remote controller to the indoor unit, the control signal transmitted from the remote controller is repeatedly transmitted as the first control signal of the first frequency and the second control signal of the second frequency by repeatedly transmitting the control signal to the indoor unit. There is a very good effect of accurately receiving from.

Claims (2)

A method of transmitting and receiving a control signal of an air conditioner, the method comprising: recognizing a user's operation command, reading data corresponding to the user's operation command from a memory, and reading the data read from the memory, the first control signal having a first frequency And a second control signal having a second frequency and a second control signal, respectively, and sequentially transmitting the first control signal and the second control signal from the remote controller to the indoor unit. The method of claim 1, wherein when the first control signal and the second control signal are sequentially transmitted to the indoor unit, the indoor control unit receives the first control signal and the second control signal in sequence, and the first control signal and the second control. The signal is divided into a lead pulse and a data pulse, respectively, and by analyzing the read pulse and the data pulse of the first control signal, it is determined whether the first control signal is official data, and the first control signal is official data. If it is determined that the first control signal is recognized as data, the first control signal is stored in the first address of the memory, and the second control signal is formulated by analyzing the read pulse and the data pulse of the second control signal. And if it is determined that the second control signal is official data, the second control signal is recognized as data and the second control signal is determined. Is stored in a second address of the memory, and it is determined whether the first control signal stored in the first address of the memory and the second control signal stored in the second address of the memory coincide with each other. And determining that the first control signal is correct data when it is determined that the control signal and the second control signal coincide with each other.