KR0125733B1 - Remote control apparatus and method of airconditioner there for - Google Patents

Abstract

To be able to reduce mismanipulations caused by the noise insertion from the acceptance part, this device comprises : the key input part which inputs the operation command of the user, the microcomputer part that memorizes the data of the command to output the control signal, the display part which displays the data of the command to the outside, the data transmitting part that sends the data by the control of the microcomputer, the voltage detection part that detects the output voltage of the battery and inputs the detected signal into the microcomputer.

Description

Remote control device of air conditioner and its control method

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

FIG. 2 is a view showing in detail the connection relationship between the microcomputer and the voltage sensing unit in FIG.

3 is a flowchart illustrating a remote control method of an air conditioner according to an embodiment of the present invention.

4 is a flowchart illustrating a remote control method of an air conditioner according to the prior art.

* Explanation of symbols for main parts of the drawings

1: key input unit 15: microcomputer

17 display unit 19 data transmission circuit

21: voltage detection unit 23: battery

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

In general, a remote control device used to control an air conditioner includes a keyboard for inputting a user's operation command, a microcomputer for storing a user's operation command input to the keyboard and outputting a control signal, and through the keyboard. A liquid crystal display for displaying a user's operation command input to the microcomputer to the outside, a data transmission circuit for receiving a control signal from the microcomputer and outputting a data transmission signal, and receiving and blinking a data transmission signal from the data transmission circuit Infrared light emitting diode for transmitting data.

A control method of a remote control device of a conventional air conditioner configured as described above will be described with reference to FIG.

First, in step S41, when the user inputs an operation command through the keyboard, that is, the temperature of the room to which the air conditioner is to be co-operated, the user enters the microcomputer and proceeds to step S4 under the control of the microcomputer and displays it on the liquid crystal display device. do.

Next, the flow advances to step S43, when the transmit key is pressed, the lead pulse, the customer code, the customer barcode, the data 1... And a continuous code such as data N is continuously output from the microcomputer to the data transmission circuit to the air conditioner, wherein the data transmission circuit continuously transmits operation state data to the air conditioner through the infrared light emitting diode to operate the air conditioner. .

At this time, the transmission time takes 200 ~ 300mS time from the beginning of the first data transmission to the completion of the final data transmission, the infrared light emitting diode flashes at about 32KHZ fast.

By the way, in the conventional remote control method of the air conditioner configured as described above, if the transmitted data is continuously output about 200 ~ 300mS, the data is not recognized by the light receiving unit due to the introduction of ambient noise during the time, therefore, such as malfunction An error occurred. In other words, the longer the transmission data, the greater the likelihood of noise in the data code and the higher the malfunction rate of the light receiver.

In addition, as the output voltage of the battery supplying power to the microcomputer and infrared light emitting diode installed in the remote control unit of the air conditioner is naturally over time, the output voltage of the battery is near the minimum voltage for operating the microcomputer. In one case, when the data is transmitted, the output voltage of the battery is further reduced, such that the infrared light emitting diode does not have a proper transmission output and transmits the data so that the light receiving unit does not completely recognize the operation state data.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to divide and transmit a user's operation command and to add a delay time between the data codes to be transmitted by dividing and transmitting the operation command. It is to provide a remote control device and an control method of the air conditioner that can reduce the malfunction.

In order to achieve the above object, the remote control apparatus of the air conditioner according to the present invention controls a key input unit for inputting an operation command of a user, and receives and outputs data of the operation command of the user by receiving an output signal of the key input unit. A microcomputer for outputting a signal, a display unit for externally displaying data of an operation command of a user input from the key input unit to the microcomputer, and a data of the user operation command input to the key input unit. And a voltage sensing unit for sensing an output voltage of the microcomputer and a battery for supplying power to the data transmission circuit under the control of the control unit, and inputting the sensing signal to the microcomputer. It is done.

In addition, the remote control method of the air conditioner according to the present invention comprises the steps of inputting data to the microcomputer through the keyboard, the step of confirming the data input to the microcomputer through the liquid crystal display element, pressing the transmission key and And a step of recognizing the number of bytes of data to be transmitted by the microcomputer, and the step of transmitting the data by which the microcomputer recognizes the number of bytes by the microcomputer at predetermined time intervals.

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

FIG. 1 is a block diagram of a remote control apparatus of an air conditioner according to an embodiment of the present invention. FIG. 2 is a diagram showing a connection relationship between a microcomputer and a voltage sensing unit in FIG.

In Fig. 2, reference numeral 1 denotes a key input unit for inputting a user's operation command. The key input unit 1 is an operation / stop button 3 for selecting whether to operate or stop the air conditioner and the air conditioner. The operation selection button 5 for selecting which function to operate the air conditioner, the dehumidification function and the heating function, the temperature setting button 7 for setting the temperature of the air conditioner, and the air conditioner The air volume setting button 9 for setting the air volume, the wind direction setting button 11 for setting the direction of the wind blown from the air conditioner to the room, and the start time for operating the air conditioner or the set reservation time A reservation / cancel timer switch 13 for canceling is arranged.

In the same drawing, reference numeral 15 denotes each operation / stop button 3 configured in the key input unit 1, an operation selection button 5, a temperature setting button 7, a wind volume setting button 9, and a wind direction setting. A microcomputer which receives the output signal of the button 11 and the reservation / cancel timer switch 13, stores a user's command input to the key input unit 1 and outputs a control signal, and 17 denotes the key input unit ( A display unit for displaying a user's command input to the microcomputer 15 through 1) to the outside, and the display unit 17 is formed of a liquid crystal display device. Reference numeral 19 denotes a data transmission circuit for transmitting a user's command input to the key input section 1 under the control of the microcomputer 15, and reference numeral 21 denotes the microcomputer 15 and the data transmission circuit. A voltage sensing unit 21 which detects an output voltage of a battery 23 for supplying power to the 19 and inputs the sensing signal to the microcomputer 15, the voltage sensing unit 21 of FIG. As shown in FIG. 2, resistors R1 and R2 divide the output voltage of the battery 23 and input the divided voltage to the microcomputer 15.

The resistor R1 and the resistor R2 are connected in series, one side of the resistor R1 is connected to the positive output terminal of the battery 23, and one side of the resistor R2 is a microcomputer. The connection terminal of the resistor R1 and the resistor R2 is connected to the analog / digital conversion terminal A / D of the microcomputer 15.

Hereinafter, a control method of a remote control device for an air conditioner according to an embodiment of the present invention configured as described above will be described.

3 is a flowchart illustrating a remote control method of an air conditioner according to an embodiment of the present invention. In FIG. 3, S denotes a step.

First, in step S1, the user sets the operation / stop button 3, the operation selection button 5, the temperature setting button 7, the air volume setting button 9, the wind direction setting button 11, and the like which are configured in the key input unit 1; By operating the reservation / cancel timer switch 13 and inputting a user's command, the operation / stop button 3, operation selection button 5, temperature setting button 7, air volume setting button 9, and air volume setting button (11) and an output signal from the reservation / cancel timer switch 13 are input to the microcomputer 15.

Proceeding to the next step S2, the microcomputer 15 outputs a display signal corresponding to the operation command of the user to the display unit 17, and displays the user's command. The user sees the user's command displayed on the display unit 17 and checks whether the user's command is correctly input to the key input unit 1, and if the user's command is not correctly input, the user inputs again by the key input unit 1.

In step S3, a transmission key not shown is pressed. When the transmit key is pressed, the process proceeds to step S4, where the microcomputer 15 recognizes the total number of bytes of data for the operation instruction of the user to be transmitted, and simultaneously the microcomputer 1 of the microcomputer 1 for advancing the transmit program. Set to 0 in the n register and set to 0 in the D register of the microcomputer 1.

Next, proceeding to step S5, the voltage sensing unit 21 senses the output voltage of the battery by dividing the output voltage of the microcomputer 15 through the resistors R1 and R2, and proceeds to step S6 to the microcomputer ( 15 determines whether the transmission operation is possible by comparing whether the output voltage of the battery 23 input from the voltage sensing unit 21 is greater than the set voltage. If the output voltage of the battery is greater than the set voltage (YES), ) Since the transmission operation is possible, proceed to step S7, and in step S4, since the n register is set to 0, N- (N-0) = 0 (where N is data on an operation command input by the user on the keyboard). Is an integer, and n is an n register, which is an integer), so that no data code is generated, that is, assigning the value of n to N- (Nn) up to 0,1,2… N Day of operation instruction The code is output from the microcomputer 15 to the data transmitting circuit 19 in the order of having the smallest number of bytes from 0,1,2 ... N to having the most number of bytes and the data transmitting circuit 19 ) Flashes an infrared light emitting diode (not shown) to transmit data, and then proceeds to step S8 to add 1 to the value of the n register to store the new value of n in the n register.

Next, the process proceeds to step S9 and after a certain time delay (a), the process proceeds to step S10 to compare whether or not the value stored in the n register is N + 1 and to transmit data when n = N + 1 (YES). To exit.

On the other hand, when it is not in the operable state (in the case of N0) in step S6, the data transmission is delayed for a predetermined time (B) because the voltage is in a state in which the transmission operation is impossible.

During this delay time B, the output voltage of the battery 23 is restored to the transmittable operating voltage again. Subsequently, the process proceeds to step S12, where 1 is added to the D register so as to be D + 1 (where D is an integer meaning delay frequency), and it is determined whether or not the delay frequency D is 10 in step S13.

If the delay time D is 10 in step S13, since the output voltage of the battery 23 is irreparably consumed, the flow proceeds to step S14 to indicate that the voltage is abnormal on the display unit 17 to charge the battery 23. To be replaced or replaced.

On the other hand, when the delay time D is not 10 in step S13, the process proceeds to step S10, the operation of step S10 or less is repeatedly performed, and when NO in step S10, when N + 1 is not stored in the n register. The process returns to step S6 to repeat the operation of step S6 or less.

Meanwhile, in one embodiment of the present invention, data is transmitted by dividing data by one byte in step S7. However, the present invention is not limited thereto, and the number of bytes of data transmitted at one time in step S7 is not limited to one byte. The user may set the data in bytes or several bytes as appropriate and transmit the data in two bytes or several bytes.

As described above, according to the remote control apparatus of the air conditioner and the control method thereof according to the present invention, the code of the data for the operation command of the user is divided and transmitted, and the delay time is provided between the codes of the divided and transmitted data. This reduces the malfunction caused by noise insertion in the light-receiving unit, and detects when the output voltage of the battery becomes low when transmitting data, and delays by transmitting the data after recovering the output voltage of the battery. The power is enhanced so that the receiver can receive the data code of the user's operation command accurately.

Claims (6)

A key input unit for inputting a user's operation command, a microcomputer that receives an output signal of the key input unit, stores data on the user's operation command and outputs a control signal, and a user inputted from the key input unit to the microcomputer A display unit which displays data on an operation command of an external device, a data transmission circuit which transmits data on an operation command of a user inputted to the key input unit under the control of the microcomputer, and the microcomputer and the data transmission unit. And a voltage sensing unit configured to sense an output voltage of a battery for supplying power to a circuit and input the sensing signal to the microcomputer. The remote control apparatus of claim 1, wherein the voltage sensing unit comprises resistors R1 and R2 for dividing the output voltage of the battery and inputting the divided voltage to the microcomputer. The remote control apparatus of claim 1, wherein the display unit comprises a liquid crystal display device. A remote control method of an air conditioner, the method comprising: inputting data into a microcomputer through a keyboard; checking data input into the microcomputer through a liquid crystal display; pressing a transmit key; And a step of recognizing the number of bytes of data in the microcomputer, and the step of transmitting the divided data at predetermined time intervals by the microcomputer at a predetermined time interval. The method of claim 4, wherein the step of transmitting the divided data at predetermined time intervals by the microcomputer at a predetermined time interval detects the magnitude of an output voltage of a battery for supplying power to the microcomputer. And the step of determining by the microcomputer whether or not it is possible to transmit data by comparing the output voltage of the battery with a set voltage, and the first of the data to be transmitted when the data can be transmitted. And a step of delaying data transmission for a predetermined time after outputting one byte of data from the microcomputer to the data transmission unit. 6. The method of claim 5, wherein the data transmission is delayed for a predetermined time when it is not possible to transmit data in the step of determining in the microcomputer whether or not it is possible to transmit data according to the magnitude of the output voltage of the battery. And comparing the magnitude of the output voltage of the battery with a set voltage and proceeding to the step of determining by the microcomputer whether or not it is possible to transmit data.