KR0177944B1 - Airconditioner sleep operating control device and its method - Google Patents

Abstract

The present invention relates to a bedtime operation control of the air conditioner, and in particular to the bedtime operation control apparatus and method for controlling the bedtime operation to the optimal bedtime environment by controlling the bedtime operation to the position of the occupants and the temperature of the occupants at the time of bedtime It is about.

The present invention includes a sleep signal input means for inputting a sleep operation signal and simultaneously detecting a resin temperature, a remote controller micom for determining a driving time according to the resin temperature when a sleep signal and a resin temperature are obtained from the sleep signal input means; A transmission means for converting the operation time output from the infrared signal into an infrared signal and transmitting the reception means, a receiving means for receiving the infrared signal transmitted from the transmission means, a position sensor for sensing the position of the human body, and an operation obtained by the receiving means and the position sensor, respectively. It is provided with an indoor unit microcomputer for calculating the air volume and the direction of the wind according to the time and the position of the human body, and performs the bedtime operation by controlling the indoor fan and the indoor louver.

Description

Sleep operation control device and method of air conditioner

1 is a configuration diagram of a bedtime driving control device for an air conditioner according to the present invention.

2 is a detailed block diagram of the sleep signal input unit of FIG.

3 is a diagram showing a position calculation unit sector in the indoor unit microcomputer of FIG.

4 is a detailed block diagram of the counter and air flow / wind direction calculation unit of the indoor unit microcomputer of FIG.

* Explanation of symbols for main parts of the drawings

10: sleep signal input unit 20: remote control microcomputer

30: transmitter 40: receiver

50: position sensor 60: indoor unit microcomputer

The present invention relates to a bedtime operation control of the air conditioner, and in particular to the bedtime operation control apparatus and method for controlling the bedtime operation to the optimal bedtime environment by controlling the bedtime operation to the position of the occupants and the temperature of the occupants at the time of bedtime It is about.

Usually, in the conventional air conditioner, the sleep operation control controls the sleep operation by setting the sleep time.

That is, the time setting key is set to 1 hour, 3 hours, 5 hours in a toggle format, and the sleeper operation is performed by performing the air conditioner operation for the time set by the occupant.

For example, if the user selects 3 hours through the time setting key, the air conditioner is operated for 3 hours and the air conditioner is turned off.

However, the conventional bedtime driving control of the conventional air conditioner performs the bedtime operation by setting the time, and it is impossible for the user to accurately determine his or her physical condition (hot or cold). The shorter the contrast time setting, the shorter the start time of the air conditioner.

In addition, bedtime driving is controlled by time, which means that some people feel cold while others do not take into consideration the number of people in the room and the characteristics of the human body (hot, cold, slightly cold, slightly hot, etc.). There was also an irrational problem to feel.

Therefore, the present invention is to solve all the problems of the conventional air conditioner, and the above, the object of the present invention is to control the bedtime operation to the position of the occupant's resin and the occupant at the time of bedtime to achieve an optimal sleeping environment An air conditioner driving control apparatus and method thereof are provided.

Technical means for achieving the object of the present invention is a sleep signal input means for inputting a sleep operation signal and at the same time detect the resin temperature, and the operation time according to the resin temperature when the sleep signal and the resin temperature is obtained from the sleep signal input means A remote control micom for determining a signal, a transmitting means for converting an operating time output from the remote control micom into an infrared signal, and transmitting the received signal, a receiving means for receiving an infrared signal transmitted from the transmitting means, and a position sensor for detecting a position of a human body And an indoor unit micom that calculates the air volume and the wind direction according to the operation time and the position of the human body obtained by the receiving means and the position sensor, respectively, and performs the bedtime operation by controlling the indoor fan and the indoor louver.

Technical means for achieving the object of the present invention is the first step of setting the operation time according to the resin temperature detected when the sleep function is selected, the second step of calculating the position of the occupant by calculating the output value of the position sensor, And a third process of calculating a wind volume and a wind direction according to the set operating time and the location of the occupant, and a fourth process of performing a bedtime operation by controlling an indoor fan and an indoor louver using the calculated wind direction and the wind volume.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

1 is a configuration diagram of a bedtime driving control device for an air conditioner according to the present invention.

As shown, the bedtime driving control apparatus according to the present invention inputs a bedtime driving signal and at the same time the bedtime signal input unit 10 for detecting the resin temperature, and the operation time according to the resin temperature obtained from the bedtime signal input unit 10. The remote controller microcomputer 20 to determine the transmitter, a transmitter 30 for converting an entire time output from the remote controller microcomputer 20 into an infrared signal, and a receiver 40 for receiving an infrared signal transmitted from the transmitter 30. ), The position sensor 50 for detecting the position of the human body, the air flow rate and the wind direction are calculated according to the operation time and the position of the human body respectively obtained by the receiver 40 and the position sensor 50, and the indoor fan 70 and The indoor louver 80 was configured as a indoor unit microcomputer 60 to perform a sleep operation.

As shown in FIG. 2, the sleep signal input unit 10 includes a resin temperature sensor 11 which detects a resin temperature when a user's finger contacts a switch to input a sleep function, and the resin temperature sensor ( 11) a signal processor 12 for signal-processing the resin temperature sensed by the signal, and an analog / digital digital signal for converting the analog resin temperature value output from the signal processor 12 into a digital resin temperature value and transmitting the same to the remote controller microcomputer 20. It consisted of a transducer 13.

In addition, as shown in FIG. 4, the indoor unit microcomputer 60 converts the operation time obtained from the receiver 40 into a set number of counters, and when the operation proceeds, the counter unit 61 which decreases the count value for each set time. The position calculation unit 02 calculates the position value obtained by the position sensor 50 to determine the position of the occupant, and the count value output from the counter unit 61 and the occupant of the occupant obtained from the position calculation unit 62. The air volume / wind direction calculator 63 calculates the wind direction and the air volume according to the position and outputs control signals of the indoor fan and the indoor louver.

Referring to Figures 1 to 4 attached to the operation and effect of the bedtime operation control apparatus of the air conditioner according to the present invention configured as described above are as follows.

First, when the user presses a switch of the sleep signal input unit 10 in the remote control to input the sleep operation function, the resin temperature sensor 11 detects the resin temperature of the user and transmits the signal to the signal processor 12. 12) processes the transferred resin temperature value into an analog voltage value and applies it to the analog / digital converter 13.

That is, the resistance value of the resin temperature sensor 11 changes according to the user's finger temperature, and the signal processor 12 outputs an analog voltage according to the change in the resistance value.

The analog / digital converter 13 converts the applied analog voltage value into a corresponding digital voltage value and applies it to the remote controller micom 20 as a resin temperature value.

The remote controller micom 20 determines the bedtime operation time according to the applied digital resin temperature value and outputs it.

Here, the bedtime operation time is set in units of 20 minutes, and the bedtime operation time according to the resin temperature is stored in the limonon micom 20 as a table by experiment.

In this way, the signal corresponding to the sleep operation time output from the remote control micom 20 is converted into an infrared signal transmitted by the transmitter 30, and the receiver 40 mounted at a predetermined position of the air conditioner is analog to the infrared signal transmitted After converting to a voltage value, it is converted again into a digital signal and transmitted to the indoor unit microcomputer 60.

The indoor unit microcomputer 60 determines the control value by counting the driving time input value to the counter in the counter unit 60 based on the sleep operation time transmitted as described above.

As an example, when the operation time received by the receiver 40 is 1 hour, the value counted by the counter in the counter unit 61 is 3 since the sleep operation time is set in units of 20 minutes, and the counter unit 51 is When the sleep operation starts, the count value is reduced to 3-2-1 every 20 minutes.

On the other hand, the position sensor 50 detects the position of the occupant, where the position sensor is 5 steps left / right, 3 steps circle / middle / near, 3 top / middle / bottom 3 as shown in FIG. The total of stages is divided into 45 sectors.

In addition, there may be a case where consecutive keys are input in the same sector (two or more people sleep at the same place).

Therefore, the position calculator 62 determines the position of the occupant based on the 45 sectors described above, and further calculates the position of the occupant in the same sector from the number of input pulse signals when the continuous key enters the same sector.

In addition, the air volume / wind direction calculating unit 63 determines the air volume and the wind direction according to the count value obtained by one counter in the counter unit 61 and the position of the occupant obtained by the position calculating unit 62 when there is one user. By outputting a control signal according to the control of the air volume of the indoor fan (7) and controlling the position of the indoor louver (80) to perform the sleep operation by the method of controlling the wind direction.

In other words, the calculation of the air volume / wind direction means that the operation time is relatively longer as the resin temperature is higher. Accordingly, the initial count value of the counter is larger and the air volume is river, and the wind direction is controlled toward the occupant's position. .

If there are a plurality of users (A, B), the number of counters is determined to be two (counters A, B), and the air volume and the wind direction are determined by the combination thereof.

For example, if the occupant A has a strong wind volume and the wind direction is a spot, and the occupant B has a weak air volume and a wide wind direction, the wind volume determined by the combination thereof is strong and the wind direction is toward the occupant A. Is determined by indirect wind towards SPOT and occupant B.

As described above, the present invention has the effect of enabling the optimum sleeping environment by determining the air volume and the wind direction according to the user's resin temperature and the user's position to proceed to the bedtime operation.

In addition, even when a plurality of people are used, there is an effect that can perform the optimal sleep operation by determining the air volume and the wind direction according to the resin temperature and each position of the plurality of people by proceeding the sleep operation.

Claims (4)

A sleep signal input means for inputting a sleep operation signal and detecting a resin temperature at the same time; a remote controller micom for determining a driving time according to the resin temperature when a sleep signal and a resin temperature are obtained from the sleep signal input means; A transmission means for converting the operation time to be converted into an infrared signal and transmitting it, a receiving means for receiving the infrared signal transmitted from the transmission means, a position sensor for sensing the position of the human body, and an operation obtained by the receiving means and the position sensor, respectively Sleeping operation control device for an air conditioner comprising an indoor unit micom to calculate the air volume and the wind direction according to the position of the time and the human body to perform the bedtime operation by controlling the indoor fan and the indoor louver. According to claim 1, wherein the sleep signal input means is a signal for processing a resin temperature sensor for detecting the resin temperature and the resin temperature detected by the resin temperature sensor when the user's finger is in contact with the switch to input the sleep function And a processing unit and an analog / digital converter converting the analog resin temperature value output from the signal processing unit into a digital resin temperature value and transmitting the same to a remote controller micom. The apparatus of claim 1, wherein the indoor unit microcomputer converts the driving time obtained from the receiving unit into a set number of counters, and decreases a count value for each set time when the driving proceeds, and calculates a position value obtained from the position sensor. The air volume / wind direction calculation which calculates the wind direction and the wind volume according to the position calculation part which judges the position of the position, the count value output from the counter part, and the position of the occupant obtained from the said position calculation part, and outputs the control signal of indoor fan and the indoor louver Sleep control device of the air conditioner, characterized in that configured to include. When the sleep function is selected, the first process of setting the operation time according to the resin temperature detected, the second process of calculating the position of the occupant by calculating the output value of the position sensor, and the amount of air according to the set operation time and the position of the occupant And a fourth process of calculating a wind direction, and a fourth process of controlling an indoor fan and an indoor louver to perform a sleep operation by using the calculated wind direction and air volume.