KR0159233B1 - Airconditioner operating control method to compensate room temperature difference - Google Patents

Abstract

The present invention relates to an air conditioner having an indoor temperature sensing function for sensing an indoor temperature, provided in both an indoor unit and a remote controller of an air conditioner, in particular, an indoor temperature around a remote controller detected by a remote controller (that is, a user having a remote controller). Indoor temperature of the air conditioner is transmitted to the indoor unit of the air conditioner, and the compressor is operated by compensating the set temperature according to the temperature difference between the room temperature around the indoor unit and the room temperature around the user so that the room temperature around the user can reach the set temperature. In the air conditioner provided with both the indoor unit of the air conditioner and the remote controller, the user controls the set temperature (T _B ) with the remote controller 30 to control the remote control signal from the remote control unit. 10), the indoor temperature around the remote control detected from the second indoor temperature sensor 32 provided in the remote control 30 A remote control control signal output step (S10) of loading a second indoor temperature (T2) together with a set temperature (T _B ) on the remote control control signal and outputting the same to the indoor unit (10); When the remote control control signal is input from the remote control unit 30, the first indoor temperature T1 which is the room temperature around the indoor unit detected by the first indoor temperature sensor 12 included in the indoor unit 10 is input from the remote control control signal. A temperature difference storing step S20 of storing the temperature difference TD = T1-T2 with the second room temperature T2 in the temperature storage unit 40; When heating, when the current first room temperature T1 ′ detected by the first room temperature sensor 12 is greater than or equal to the sum of the set temperature T _B input from the remote control signal and the temperature difference TD (T1 ′). ≥T _B + TD) while to stop the compressor, is not equal to or greater than (T1 'T _B + TD) Heating during compressor operation step (S30) for driving the compressor and; When cooling, when the current first room temperature T1 ′ detected by the first room temperature sensor 12 is equal to or less than the sum of the set temperature T _B and the temperature difference TD input from the remote control signal (T1 ′). ≤T _B + TD) is composed of (T1 'T _B + TD) cooling when the compressor operation step (S40) for driving the compressor while the compressor is stopped, instead of below. Air conditioner operation control method for compensating for the deviation of the room temperature, characterized in that consisting of.

Description

Air conditioner operation control method to compensate the deviation of room temperature

1 is a block diagram showing the configuration of the indoor unit of the air conditioner.

2 is a block diagram showing the configuration of a remote controller in an air conditioner.

3 is a flowchart illustrating a compressor operation control method according to a conventional room temperature.

Figure 4 shows an embodiment of the present invention,

(a) is a flowchart showing the output of the remote control signal from the remote control unit.

(b) is a flow chart showing the operation of the indoor control unit.

Figure 5 shows another embodiment of the present invention,

(a) is a flow chart showing the temperature difference storage step.

(b) is a flow chart showing the operation of the compressor during heating.

Figure 6 is a table showing the temperature difference stored in the temperature storage unit in another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: indoor unit 20: outdoor unit

30: remote control 40: temperature storage unit

S10: remote control signal output step S20: temperature difference storage step

S30: compressor operation step when heating S40: compressor operation step when cooling

The present invention relates to an air conditioner having an indoor temperature sensing function for detecting a temperature of an indoor unit provided on both an indoor unit and a remote controller of an air conditioner, and in particular, by transmitting the indoor temperature around the user detected by the remote control unit to an indoor unit of the air conditioner. By operating the air conditioner to compensate for the difference in temperature between the room temperature around the indoor unit and the room temperature around the user, the air conditioner compensates for the deviation of the room temperature that controls the air conditioner so that the room temperature around the user reaches the set temperature. It relates to a driving control method.

Conventional air conditioners, as shown in FIG. 1 and FIG. 2, the indoor unit 10 is provided with a first indoor temperature sensor 12 for detecting the room temperature T1 around the indoor unit, and the indoor unit 10 at a distance. The second indoor temperature sensor 32 detects an indoor temperature T2 around the remote control (that is, an indoor temperature around the user who controls the remote control).

As shown in FIG. 1, the indoor unit 10 of the air conditioner has a power supply unit 11 for supplying power to each unit, and a first indoor temperature for detecting an indoor temperature T1 around the indoor unit where the indoor unit 10 is located. A sensor 12, a display unit 13 for displaying the state of the air conditioner to the user, a user operation unit 14 which is operated by the user and outputs an operation control signal, and the user operation unit 14 or the remote controller 30 Each part is controlled according to a driving control signal input from the control unit, and the indoor control unit 15 displays a driving state to the user through the display unit 13 and outputs a driving control signal to the outdoor unit 20.

In addition, the remote controller 30, as shown in Figure 2, the remote control power supply unit 31 for supplying power to each part, and the second room temperature for detecting the room temperature (T2) around the remote control where the remote control 30 is located A sensor 32, a remote controller display unit 33 for displaying the state of the air conditioner to the user, a remote controller user control unit 34 operated by the user to input an operation control signal, and a remote controller control signal to the indoor unit ( A remote controller controlling the remote controller transmitter 35 and the remote controller display unit 33 according to a signal input from the transmitter 35 outputted to the terminal 10 and the remote controller user control unit 34 and the second indoor temperature sensor 32; 36).

The operation method of the conventional air conditioner configured as described above will be described with reference to FIG.

First, the indoor unit 10 detects the indoor temperature T1 around the indoor unit from the first indoor temperature sensor 12, and the indoor controller 15 displays the indoor temperature T1 around the detected indoor unit by displaying the display unit 13. Inform the user via Then, the user sees the room temperature T1 around the indoor unit displayed on the display unit 13 and operates the user operation unit 14 to input the set temperature T _B. Accordingly, the indoor controller 15 outputs a compressor operation signal as an operation control signal to the outdoor unit 20 while the indoor temperature T1 ′ of the current indoor unit does not reach the set temperature T _B. For example, during heating operation, it is detected whether or not the temperature T1 '+ 1 plus 1 ° C. to the room temperature T1' around the current indoor unit is equal to or higher than the set temperature T _B. T1 ') plus 1 ° C is the set temperature (T _B ) or more (T1' +1 ≥ T _B ), the operation control signal to stop the compressor is output to the outdoor unit 20 to stop the compressor. If not (T1 '+ 1 T _B ), the compressor is operated by outputting an operation control signal for operating the compressor.

When the user controls the indoor temperature by using the display unit 13 and the user control unit 14 of the indoor unit 10, the compressor may be operated so that the indoor temperature T1 around the indoor unit reaches the set temperature T _B. Can be.

However, when the user sets the set temperature (T _B ) by using the remote control 30, the room temperature (T2) around the user does not reach the set temperature.

In more detail, the second room temperature sensor 32 provided in the remote controller 30 detects the room temperature (T2, that is, the room temperature around the user who controls the remote control) around the remote control unit, and the remote control unit 36 The user displays the room temperature T2 around the remote controller input from the second room temperature sensor 32 to the user through the remote controller display unit 33. In addition, the indoor control unit 15 of the indoor unit 10 informs the user of the indoor temperature T1 around the indoor unit input from the first indoor temperature sensor 12 through the display unit 13. Accordingly, when the position of the user who controls the remote controller 30 and the position of the indoor unit 10 are far apart, the room temperature T2 of the remote controller display unit 33 and the room temperature T1 of the display unit 13 are Will be different.

In this state, when the user outputs the driving control signal to the indoor unit 10 by using the remote control unit 30, the user sees the room temperature T2 around the remote control displayed on the remote control display unit 33 and the remote control user operation unit 34 Set the set temperature (T _B ) by operating. Then, the remote controller 36 outputs a remote controller control signal to the indoor unit 10 through the transmitter 35. In this case, although the set temperature T _B is included in the remote controller control signal, the second indoor temperature sensor 32 is used. The room temperature T2 around the remote controller is not included.

Therefore, the indoor control unit 15 uses the set temperature T _B input from the remote control signal input from the remote control unit 30 to the indoor temperature T1 ′ around the current indoor unit input from the first indoor temperature sensor 12. Compared with)), the compressor is operated by outputting an operation control signal for operating the compressor to the outdoor unit 20 until the indoor temperature T1 'around the indoor unit reaches the set temperature T _B.

As such, the air conditioner equipped with the indoor temperature sensing function on both the indoor unit and the remote controller of the air conditioner outputs the operation control signal to the indoor unit by the remote controller. Accordingly, the indoor unit controller outputs an operation control signal to the outdoor unit by comparing the indoor temperature and the set temperature of the indoor unit, which is input from the indoor temperature sensor provided in the indoor unit, to output the operation control signal to the outdoor unit. If the difference between the temperature (room temperature around the user to control the remote control) is large, there is a problem that the room temperature around the remote control does not reach the set temperature.

An object of the present invention is to solve the conventional problems as described above, in the air conditioner provided on both sides of the indoor unit and the remote control of the air conditioner for detecting the temperature of the room, the remote control control signal from the remote control controller When transmitting, the remote control signal including the room temperature around the remote controller is output to the indoor unit, and the control unit controls the compressor by adding or subtracting the set temperature according to the temperature difference between the room temperature around the indoor unit and the room temperature around the remote controller. It is to provide an air conditioner operation control method for compensating for the deviation of the indoor temperature so that the indoor temperature reaches the set temperature.

Hereinafter, the technical configuration of the present invention in detail.

In the air conditioner operation control method for compensating the deviation of the room temperature in the air conditioner equipped with both the indoor unit and the remote control of the air conditioner, the user controls the set temperature with the remote control, When outputting a control signal to the indoor unit, a remote control signal for outputting the indoor unit a second indoor temperature, which is the room temperature around the remote control detected by the second indoor temperature sensor provided in the remote control unit, together with the set temperature in the remote control control signal An output step; When the remote control signal is input, the temperature difference between the first indoor temperature, which is the room temperature around the indoor unit detected by the first indoor temperature sensor provided in the indoor unit, and the second indoor temperature input from the remote control control signal, is stored in the temperature storage unit. A temperature difference storage step; And a compressor operating step of controlling the compressor by comparing a current first indoor temperature detected by the first indoor temperature sensor with a sum of a set temperature input from the remote controller control signal and the temperature difference.

The compressor operation step stops the compressor when the current first room temperature detected by the first room temperature sensor is greater than or equal to the sum of the set temperature input from the remote control signal and the temperature difference during heating. A compressor operation step of heating during operation; When cooling, the compressor is stopped when the current first room temperature detected by the first room temperature sensor is equal to or less than the sum of the set temperature input from the remote control signal and the temperature difference, and the compressor is operated while not being below. It consists of an operation phase.

The step of storing the temperature difference divides the day into a plurality of time zones, and when the remote control signal is input, checks whether the temperature difference of the corresponding time zone corresponding to the current time is stored in the temperature storage unit, and then the temperature difference of the time zone is stored in the temperature storage unit. If stored, the temperature difference between the first indoor temperature detected by the first indoor temperature sensor, the second indoor temperature input from the remote controller control signal, and the temperature difference between the corresponding time zones is averaged, and the data is re-stored as the temperature difference of the corresponding time zone. If the temperature difference is not stored in the temperature storage unit, the temperature difference between the first indoor temperature and the second indoor temperature is stored as the temperature difference in the corresponding time zone.

In the heating compressor operation step and the cooling compressor operation step, the temperature difference is a temperature difference of the corresponding time zone corresponding to the current time from the temperature storage unit.

An embodiment of the present invention will be described in detail as follows.

According to an embodiment of the present invention, as shown in FIG. 4, in the air conditioner having the indoor temperature sensing function provided at both the indoor unit and the remote controller of the air conditioner, the user sets the set temperature T _B with the remote controller 30. When the remote control control unit 36 outputs a remote control control signal to the indoor unit 10 by adjusting, the second indoor temperature which is the room temperature around the remote control detected by the second indoor temperature sensor 32 provided in the remote control unit 30. A remote control control signal outputting step (S10) of putting (T2) on the remote control signal with the set temperature (T _B ) and outputting it to the indoor unit (10); When the remote control control signal is input from the remote control unit 30, the first indoor temperature T1 which is the room temperature around the indoor unit detected by the first indoor temperature sensor 12 included in the indoor unit 10 is input from the remote control control signal. A temperature difference storing step S20 of storing the temperature difference TD = T1-T2 with the second room temperature T2 in the temperature storage unit 40; When heating, when the current first room temperature T1 ′ detected by the first room temperature sensor 12 is greater than or equal to the sum of the set temperature T _B input from the remote control signal and the temperature difference TD (T1 ′). ≥T _B + TD) while to stop the compressor, is not equal to or greater than (T1 'T _B + TD) Heating during compressor operation step (S30) for driving the compressor and; When cooling, when the current first room temperature T1 ′ detected by the first room temperature sensor 12 is equal to or less than the sum of the set temperature T _B and the temperature difference TD input from the remote control signal (T1 ′). ≤ T _B + TD) Compressor operation step (S40) for cooling is performed to stop the compressor and to operate the compressor while not being (T1 'T _B + TD).

The operation of one embodiment of the present invention will be described with reference to FIGS. 1, 2, and 4 as follows.

The user is provided on a lower adjusting the set temperature (T _B) with the remote control 30, the remote control control signal output step (S10), the remote controller 36 remote controller 30 with the set temperature (T _B), the second The second indoor temperature T2, which is the room temperature around the remote control detected by the room temperature sensor 32 (that is, the temperature around the user having the remote control), is loaded on the remote control signal and output to the indoor unit 10.

When the remote controller control signal is input from the remote controller 30, in the temperature difference storage step S20, the indoor controller 15 is an indoor temperature around the indoor unit detected by the first indoor temperature sensor 12 provided in the indoor unit 10. The temperature difference TD = T1-T2 between the first room temperature T1 and the second room temperature T2 input from the remote controller control signal is calculated and stored in the temperature storage unit 40. At this time, when the position of the remote controller 30 and the position of the indoor unit 10 are far apart, the absolute value of the temperature difference TD becomes large.

After performing the temperature difference storage step (S20) and in the compressor operation step (S30) during heating, the indoor control unit 15 is the current first room temperature (T1 ') detected from the first room temperature sensor 12 is the remote control If there is more than the sum of the input control signal from the set temperature (T _B) and the temperature difference _{(TD) (T1 '≥T B} + TD) to stop the compressor, greater than or equal to (T1' T _B + TD) and driving a compressor The operation of the compressor is then controlled by detecting the current first room temperature T1.

For example, when the set temperature T _B is 24 ° C., the first room temperature T 1 is 21 ° C., and the second room temperature T 2 is 19 ° C. during the heating operation, the temperature difference (TD = T1-T2 = 21). -19) is 2 ° C. That is, the room temperature T1 around the indoor unit is 2 ° C higher than the room temperature T2 around the remote control. Therefore, should operation of the compressor to be present first at room temperature (T1 ') reaches 2 ℃ high 26 ℃ than the set temperature (T _B) in order to ensure reaching the remote control setting the room temperature (T2) temperature (T _B) of the surrounding do. To do this, the indoor control unit 15 determines whether the current first indoor temperature T1 'is equal to or greater than the sum of the set temperature (24 ° C) and the temperature difference (TD = 2 ° C) (T1' ≧ 24 + 2). As a result of the determination, when the second indoor temperature T2 is equal to or larger than the sum of the set temperature (24 ° C) and the temperature difference (TD = 2 ° C) (T1 '≥ 26), the second room temperature T2 is 24 ° C or more. Since the compressor is stopped, and if it is not abnormal (T1'26), the second room temperature T2 is lower than 24 ° C, and thus the compressor is continuously operated.

In addition, after performing the temperature difference storage step (S20), in the cooling operation of the compressor (S40), the indoor control unit 15 currently sets the first temperature (T1 ') of the set temperature T _B input from the remote control signal. ) Is less than or equal to the sum of the temperature difference TD (T1 '≤ T _B + TD), the compressor is stopped, and if not less than (T1' T _B + TD), the compressor is operated and the current first room temperature T1 is Detects and controls the operation of the compressor.

For example, when the set temperature T _B is 24 ° C. in the cooling operation, the first room temperature T 1 is 19 ° C., and the second room temperature T 2 is 21 ° C., the temperature difference (TD = T1-T2 = 19). -21) is -2 ° C. That is, the room temperature T1 around the indoor unit is 2 ° C. lower than the room temperature T2 around the remote control. Therefore, in order to make the room temperature T2 around the remote controller reach the set temperature (24 ° C.), the compressor must be operated so that the current first room temperature T 1 ′ reaches 22 ° C., which is 2 ° C. lower than the set temperature 24. . To do this, the indoor control unit 15 determines whether the current first indoor temperature T1 'is equal to or less than the sum of the set temperature (24 ° C) and the temperature difference (TD = -2 ° C) (T1'≤24 + (- 2)). As a result of the determination, when the first indoor temperature T1 is equal to or less than the sum of the set temperature (24 ° C.) and the temperature difference (−2 ° C.) (T1 ′ ≦ 22), this indicates that the second indoor temperature T2 is 24 ° C. or less. Therefore, the compressor is stopped, and if not (T1 '22) indicates that the second room temperature T2 is higher than 24 ° C, the compressor is kept running.

As described above, in the embodiment of the present invention, when there is a temperature difference between the room temperature around the indoor unit and the room temperature (room temperature around the user) around the remote controller, the compressor is controlled by readjusting the set temperature by the temperature difference. It is possible to reach the ambient temperature set by the user.

5 and 6 illustrate another embodiment of the present invention, by dividing a day into a plurality of time zones (t1, t2, ..., tn) and storing the temperature difference in each time zone in the temperature storage unit 40, More specifically, the readjustment of the set temperature for each temperature difference is as follows.

In the temperature difference storage step (S20 '), the day is divided into a plurality of time zones (t1, t2, ..., tn) and when the remote control signal is input, the temperature difference (TDn) of the corresponding time zone (tn) corresponding to the current time is stored in temperature. Check if it is stored in the unit (40). When the temperature difference TDn of the corresponding time zone tn is stored in the temperature storage unit 40 as a result of the inspection, from the first indoor temperature T1 detected by the first indoor temperature sensor 12 and the remote control control signal, The temperature difference TDn of the second time zone T2 is input to the temperature storage unit 40 by averaging the temperature difference TDn '← T1-T2 of the second indoor temperature T2 and the previously stored temperature difference TDn' of the corresponding time zone tn. (TDn ← (TDn + TDn ′) / 2), and when the temperature difference TDn of the corresponding time zone is not stored in the temperature storage unit 40, the first indoor temperature T1 and The temperature difference TDn 'T1-T2 of the second indoor temperature T2 from the remote control signal is stored as the temperature difference TDn of the corresponding time zone tn (TDn ← TDn').

Then, since the temperature difference TDn stored in the temperature storage unit 40 is readjusted as the remote controller control signal is input, the temperature difference TDn is stored at an appropriate temperature difference for each time zone of the day.

After performing the temperature difference storage step (S20 '), and in the compressor operation step (S30') during heating, the indoor control unit 15 first the temperature difference of the corresponding time zone (t1) that the current time corresponds from the temperature storage unit 40 After reading (TD1), the current first room temperature (T1 ') detected from the first room temperature sensor 12 of the set temperature (T _B ) input from the remote control signal and the corresponding time zone (t1) If the temperature difference is equal to or greater than the sum of the TD1 (T1 '≥ T _B + TD1), the compressor is stopped and if not abnormal (T1' T _B + TD1), the compressor is operated and the current first room temperature T is detected again. To control the driving.

After performing the temperature difference storage step (S20 '), the compressor operation during cooling is the same as the compressor operation step (S30') when heating, except that the current first room temperature (T1 ') and the set temperature (T _B ) If the temperature is equal to or less than the sum of the temperature differences TD1 of the time zone t1 (T1 '≤ T _B + TD1), the compressor is stopped, and if not less than (T1' T _B + TD1), the compressor is operated and the current first room temperature is again. (T) is detected to control the operation of the compressor.

As described above, the air conditioner operation control method for compensating the deviation of the room temperature of the present invention is an air conditioner having an indoor temperature sensing function for detecting the indoor temperature of the indoor unit and the remote controller of the air conditioner, When the remote control signal is transmitted, the remote control signal including the room temperature around the remote controller (that is, the room temperature around the user with the remote controller) is output to the indoor unit, and the indoor control unit between the room temperature around the indoor unit and the room temperature around the remote controller. It is useful to control the compressor by adding or subtracting the set temperature according to the temperature difference, so that the room temperature around the remote controller reaches the set temperature regardless of the temperature difference between the room temperature around the remote controller and the room temperature around the indoor unit.

Claims (4)

In the air conditioner provided with both the indoor unit of the air conditioner and the remote controller, when the user adjusts the set temperature with the remote controller and outputs the remote control signal from the remote controller to the indoor unit, the second indoor unit provided in the remote controller A remote control signal output step of outputting a second indoor temperature, which is an indoor temperature around the remote controller detected by a temperature sensor, to the indoor unit by loading the second indoor temperature together with a set temperature on the remote control control signal; When the remote control signal is input, the temperature difference between the first indoor temperature, which is the room temperature around the indoor unit detected by the first indoor temperature sensor provided in the indoor unit, and the second indoor temperature input from the remote control control signal, is stored in the temperature storage unit. A temperature difference storage step; A compressor operating step of controlling a compressor by comparing a current first indoor temperature detected by the first indoor temperature sensor with a sum of a set temperature input from the remote control signal and the temperature difference; Air conditioner operation control method for compensating for the deviation of the room temperature, characterized in that consisting of. The method of claim 1, wherein the operation of the compressor stops the compressor when the current first room temperature detected by the first room temperature sensor is equal to or larger than a sum of the set temperature input from the remote controller control signal and the temperature difference during heating. A compressor operating step during heating to operate the compressor while not abnormal; When cooling, the compressor is stopped when the current first room temperature detected by the first room temperature sensor is equal to or less than the sum of the set temperature input from the remote control signal and the temperature difference, and the compressor is operated while not being below. Driving step; Air conditioner operation control method for compensating for the deviation of the room temperature, characterized in that consisting of. The method of claim 1, wherein the step of storing the temperature difference divides the day into a plurality of time zones, and when the remote control signal is input, checks whether a temperature difference of the corresponding time zone corresponding to the current time is stored in the temperature storage unit, and then, When the temperature difference is stored in the temperature storage unit, the temperature difference between the first indoor temperature detected by the first indoor temperature sensor, the second indoor temperature input from the remote control signal, and the temperature difference between the corresponding time zones is averaged. If the temperature difference is not stored in the temperature storage unit, the temperature difference between the first indoor temperature and the second indoor temperature is stored as the temperature difference of the corresponding time zone. Operation control method. The air conditioner of claim 2, wherein the temperature difference in the compressor operation step of heating and the compressor operation step of cooling is a temperature difference of a corresponding time zone corresponding to a current time from a temperature storage unit. Control method.