KR0156692B1 - Temperature control method of an airconditioner - Google Patents

Abstract

The present invention relates to a method for controlling the temperature of an air conditioner, the upper temperature sensor and the lower temperature sensor for detecting the upper temperature and the lower temperature of the room, and the suction inlet temperature for detecting the temperature of the intake air is installed in the inlet for intake of indoor air An air conditioner having a sensor and an upper louver and a lower louver attached to an upper end and a lower end of an air discharge port, respectively, to control a direction of discharged air, wherein the average value is calculated for a predetermined time with respect to the temperature sensed by each temperature sensor. In addition, the indoor fan motor is driven by being driven into 'strong', 'middle' and 'low' based on the average value of the sensed temperatures, and the angles of the upper and lower louvers are respectively measured from the first position to the third position. By driving to the position, the temperature distribution in the room is kept constant.

Description

Air conditioning temperature control

1 is a control block diagram of a conventional air conditioner thermostat.

2 is a control block diagram of a temperature control apparatus for an air conditioner, in which an air conditioning temperature control method according to the present invention can be employed.

Figure 3 is a cross-sectional view of the main portion of the air conditioner can be adopted a temperature control method of the air conditioner according to the present invention.

4 is a mounting structure diagram of a temperature sensor used in the present invention.

5 is a flow chart illustrating a method of controlling the temperature of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power supply means 20: microcomputer

30: driving selection means 40: remote control receiving means

50: fan motor driving means 60: louver motor driving means

70: upper temperature sensing means 80: inlet temperature sensing means

90: lower temperature sensing means 100: humidity sensing means

105: temperature and humidity detection means 110: compressor driving means

120: display means

The present invention relates to a temperature control method of the air conditioner to control the temperature of the room.

In general, the air conditioner temperature control apparatus according to the prior art, as shown in Figure 1, the power supply means 10 for receiving a commercial AC input voltage output from the AC power input terminal and converts the DC voltage required for the operation of the air conditioner, The microcomputer 20 which receives the DC voltage signal output from the power supply means 10 and outputs a synchronous control signal for controlling the overall operation of the air conditioner, and the operation mode for adjusting the temperature of the air conditioner are forced driving and automatic. Operation selection means 30 for outputting an operation selection signal to the microcomputer 20 by a user selecting whether the operation and the remote control operation are performed, and an operation start signal output from the remote control during operation of the remote control of the operation selection means 30; And a remote control unit 40 for receiving a selection signal and outputting the selected signal to the microcomputer 20 and the microcomputer 20. Fan motor driving means 50 for receiving a synchronous control signal and outputting a fan motor driving signal for driving the fan motor, and a louver motor driving for driving the louver motor by receiving a synchronous control signal output from the microcomputer 20. Louver motor driving means 60 for outputting a signal, temperature and humidity sensing means 105 for sensing the temperature and humidity of the room and outputting to the microcomputer 20, and the synchronization output from the microcomputer 20 Compressor driving means 110 for turning on / off the relay to drive the compressor in response to the control signal, and display means 120 for receiving the synchronous control signal output from the microcomputer 20 to display the operating state of the air conditioner. Consists of.

However, in such a configuration, only the temperature and humidity of the air sucked into the suction port are detected by using the temperature sensor and the humidity sensor of the temperature / humidity detecting means 105 to drive the compressor and the fan motor at the load stage to increase the indoor temperature. Not only can not accurately maintain a comfortable room temperature, the heat is raised to the top of the room and the cold is lowered to the bottom of the room because there is a problem that the power consumption of the air conditioner increases because the compressor operates unnecessarily.

Accordingly, the present invention has been made to solve the conventional problems as described above, an object of the present invention by accurately grasping the temperature distribution of the room using a temperature sensor installed on the top and bottom of the air conditioner and the suction port, the entire space of the room It is possible to maintain a constant temperature, not only to maintain a comfortable indoor environment, but also to eliminate the unnecessary operation of the compressor to reduce the power consumption in the air conditioner to provide a temperature control method of the air conditioner that can be expected to save power. have.

In order to achieve the above object, the temperature control method of an air conditioner according to the present invention includes an upper temperature sensor and a lower temperature sensor for detecting an upper temperature and a lower temperature of a room, respectively, and an inlet for suctioning indoor air. An air conditioner having an inlet temperature sensor for detecting a and an upper louver and a lower louver attached to upper and lower ends of the air discharge port, respectively, to control the direction of discharged air; An average temperature calculation step of calculating an average value for a predetermined time with respect to the temperature sensed by the respective temperature sensors; When the calculated upper temperature average value and lower temperature average value are the same, the first temperature for driving the indoor fan motor 'strong' and reciprocating the angles of the upper and lower louvers from the first position to the third position, respectively Adjusting step; When the value obtained by subtracting the upper temperature average value from the lower temperature average value is larger than a predetermined temperature, the indoor fan motor is driven to 'strong' and the angle of the upper louver is fixed to the third position, and the lower A second temperature adjusting step of fixing the angle of the louver to a second position intermediate between the first position and the third position; If the value obtained by subtracting the upper temperature average value from the lower temperature average value is equal to the predetermined temperature, the indoor fan motor is driven to 'middle' and the angle of the upper louver is fixed to the third position. A third temperature adjusting step of fixing the angle of the lower louver to the second position; When the value obtained by subtracting the upper temperature average value from the lower temperature average value is lower than the predetermined temperature, while driving the indoor fan motor 'about', while fixing the angle of the upper louver to the third position, A fourth temperature adjusting step of fixing the angle of the lower louver to the second position; If the value obtained by subtracting the average value of the lower temperature from the average value of the upper temperature is greater than the predetermined temperature, the indoor fan motor is driven to 'strong' and the angle of the upper louver is fixed to the second position. A fifth temperature adjusting step of fixing the angle of the lower louver to the first position; When the value obtained by subtracting the average value of the lower temperature from the average value of the upper temperature is equal to the predetermined temperature, the indoor fan motor is driven to 'middle' and the angle of the upper louver is fixed to the second position. A sixth temperature adjusting step of fixing the angle of the lower louver to the first position; If the value obtained by subtracting the average value of the lower temperature from the average value of the upper temperature is lower than the predetermined temperature, the indoor fan motor is driven to 'about' and the angle of the upper louver is fixed to the second position. A seventh temperature adjusting step of fixing the angle of the lower louver to the first position; And a repeating step of repeating the first to seventh temperature adjusting steps until the upper temperature average value and the intake air temperature average value are equal to each other.

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

2 is a control block diagram of a temperature control apparatus for an air conditioner in which an air conditioner temperature control method according to an embodiment of the present invention may be employed, and FIG. 3 is a cross-sectional view of main parts of an air conditioner in which the present invention may be employed. 4 is a structural diagram of the temperature sensor used in the present invention, Figure 5 is a flow chart showing a temperature control method of the air conditioner according to the present invention.

2 to 4, the power supply means 10 receives a commercial AC input voltage output from an AC power input terminal (not shown), converts it into a DC voltage necessary for the operation of the air conditioner, and outputs the microcomputer 20. It receives the DC voltage signal output from the power supply means 10 and outputs a synchronous control signal for controlling the overall operation of the air conditioner.

In addition, the operation selecting means 30 selects whether the operation mode for adjusting the temperature of the air conditioner is a forced operation, an automatic operation, or a remote control operation, outputs an operation selection signal to the microcomputer 20, and receives the remote control means. 40 receives an operation start signal and a selection signal output from the remote control during operation of the remote control of the operation selection means 30 and outputs the selection signal to the microcomputer 20.

The fan motor driving means 50 receives the synchronous control signal output from the microcomputer 20 and outputs a fan motor driving signal for driving the fan motor to a fan motor (not shown), and the louver motor driving means 60 is Receiving a synchronous control signal output from the microcomputer 20 and outputs a louver motor driving signal for driving the louver motor to a louver motor (not shown), the louver motor is attached to the top of the air discharge port (4) of the air conditioner It consists of an upper louver motor for controlling the angle of the upper louver 5, and a lower louver motor for controlling the angle of the lower louver 5 'attached to the lower end of the air discharge port 4 of the air conditioner.

In addition, the upper temperature sensing means 70 detects the upper temperature of the room in which the air conditioner is installed and outputs the detected upper temperature voltage signal to the microcomputer 20. The upper temperature sensing means 70 Attached to the top of the air conditioner is configured to include an upper temperature sensor 71 for sensing the upper temperature of the room.

The inlet temperature sensing means 80 senses the temperature of the air sucked from the inlet 6 of the air conditioner and outputs the detected inlet temperature voltage signal to the microcomputer 20. 80 includes an inlet temperature sensor 81 attached to the inlet of the air conditioner.

In addition, the lower temperature detecting means 90 detects the lower temperature of the room in which the air conditioner is installed and outputs the detected lower temperature voltage signal to the microcomputer 20, so that the lower temperature detecting means 90 Attached to the bottom of the air conditioner is configured to include a lower temperature sensor 91 for detecting the lower temperature of the room.

In addition, the humidity detecting means 100 detects the humidity of the air sucked in the inlet 6 of the air conditioner and outputs the detected suction inlet humidity voltage signal to the microcomputer, and the compressor driving means 110 is the microcomputer. The relay is turned on / off to receive the synchronous control signal outputted from the 20 and drives the compressor, and the display means 120 receives the synchronous control signal outputted from the microcomputer 20 to display the operation state of the air conditioner. .

Meanwhile, reference numeral 1 denotes a main body of the air conditioner, 2 denotes an indoor heat exchanger, and 3 denotes an indoor fan.

Hereinafter, the effect of the temperature control method according to the present invention in the air conditioner configured as described above will be described in detail.

First, when the input voltage of the commercial AC power supplied from the AC power input terminal of the air conditioner is converted into a DC voltage at the power supply means 10 and applied to the microcomputer 20, the microcomputer 20 is supplied from the power supply means 10. Receives the output DC voltage signal and outputs a synchronous control signal for controlling the overall operation of the air conditioner to the fan motor driving means 50, the louver motor driving means 60 and the compressor driving means (110).

At this time, the user selects whether the operation of the air conditioner is forced driving or automatic driving and remote control operation by the driving selecting means 30, and outputs the driving selection signal to the microcomputer 20, and the driving When the remote control operation is selected by the selecting means 30, the remote control receiving means 40 receives the operation start signal and the selection signal set on the remote control by the user and outputs them to the microcomputer 20.

When the user selects the autonomous driving mode by the operation selecting means 30 or receives the autonomous driving mode set by the user through the remote control by the remote control receiving means 40 and outputs the microcomputer 20 to the microcomputer 20, The upper temperature sensor 71 attached to the upper end detects the upper temperature of the room and outputs the detected upper temperature voltage signal to the microcomputer 20, and the suction inlet temperature sensor 81 attached to the inlet 6 of the air conditioner. ) Detects the temperature of the air sucked into the inlet 6 of the air conditioner and outputs the detected inlet temperature voltage signal to the microcomputer 20, and the lower temperature sensor 91 attached to the bottom of the air conditioner is the indoor. Detects the lower temperature of the and outputs the detected lower temperature voltage signal to the microcomputer (20).

Therefore, the microcomputer 20 receives respective temperature voltage signals from the upper temperature sensing means 70, the inlet temperature sensing means 80, and the lower temperature sensing means 90, and then obtains an average value of the temperature voltage signals. Compare.

As a result of the comparison, when the average value of the upper temperature of the room is larger than the average value of the lower temperature, the louver motor driving means 60 increases the upper louver motor to fix the angle of the upper louver to the 45 ° position in order to increase the lower temperature of the room. Drive the lower louver motor to fix the angle of the lower louver at 0 ° and at the same time, the fan motor driving means 50 drives the fan motor 'strong', 'medium', according to the temperature difference between the upper and lower parts of the room. The entire space of the room is maintained at a constant temperature while driving at 'about'.

In addition, when the average value of the upper temperature of the room is smaller than the average value of the lower temperature, the louver motor driving means 60 increases the upper louver motor to fix the angle of the upper louver to a 90 ° position in order to increase the upper temperature of the room. At the same time, the lower louver motor is driven to fix the angle of the lower louver at a 45 ° position. The fan motor driving means 50 drives the fan motor 'strong', 'medium', 'in accordance with the temperature difference between the upper and lower parts of the room. While driving at about 'keep the entire space of the room at a constant temperature.

When the average value of the upper temperature in the room is equal to the average value of the lower temperature, the upper louver motor and the lower louver are repeatedly swinged by the louver motor driving means 60 at angles of 0 ° to 90 °. The motor is driven and the fan motor driving means 50 maintains the entire space of the room at a constant temperature while driving the fan motor 'strong'.

Next, the air conditioning temperature control method according to the present invention will be described in detail with reference to FIG. In FIG. 5, S denotes a step.

5 is a flowchart showing an operation procedure according to the present invention.

First, when the input voltage of the commercial AC power supplied from the AC power input terminal of the air conditioner is converted into the DC voltage by the power supply means 10 and applied to the microcomputer 20, the air conditioner starts to operate.

At this time, to adjust the temperature of the air conditioner, in step S1 by the upper temperature sensing means 70 detects the upper temperature (A) of the room in which the air conditioner is installed, and the inlet ( 6) detects the temperature (B) of the air sucked in, and detects the lower temperature (C) of the room by the lower temperature detection means (90).

Subsequently, in step S2, the upper temperature (A), the suction port temperature (B), the lower temperature detected by the upper temperature sensing means 70, the inlet temperature sensing means 80, and the lower temperature sensing means 90 in the step S1. The temperature C is sensed for a predetermined time (for example, about 1 minute) and the respective average values ( , , ), Go to step S3, and calculate the average value of the upper temperature ( Is the average value of the lower temperature ( The average value of the upper temperature ( Is the average value of the lower temperature ( If not greater than (NO), the average value of the upper temperature calculated in step S2 in step S4 ( Is the average value of the lower temperature ( Is determined as follows.

As a result of the determination in step S4, the average value of the upper temperature ( Is the average value of the lower temperature ( If it is not equal to (NO), go to Step S5 to calculate the average value of the lower temperature calculated in Step S2 ( ) And the average value of the upper temperature ( ) Is determined to be greater than a predetermined value (for example, about 3 ° C), and the average value of the lower temperature ( ) And the average value of the upper temperature ( If the difference is not greater than 3 ° C (for example, NO), the average value of the lower temperature (step S6) ) And the average value of the upper temperature ( Is determined to be equal to, for example, 3 ° C.

As a result of the determination in step S6, the average value of the lower temperature ( ) And the average value of the upper temperature ( In the case where the difference of) is, for example, 3 ° C (Yes), the process proceeds to step S7 by the louver motor driving means 60 in step S8 while driving the fan motor 'medium' by the fan motor driving means 50. The upper louver motor is driven to fix the angle of the upper louver 5 at the first position (90 °) while the lower louver motor is driven to fix the angle of the lower louver 5 'at the second position (45 °). Let's do it.

Next, in step S9, the average value of the upper temperature calculated in step S2 ( Is the average value of the inlet temperature ( The average value of the upper temperature ( Is the average value of the inlet temperature ( In the case of (Yes), go to step S10 and the average value of the inlet temperature ( ) Is equal to the set temperature input to the microcomputer 20 by the user, and the average value of the inlet temperature ( If () is equal to the temperature set by the user (Yes), the flow advances to step S11, returns to step S3 while turning off the compressor, and repeats the operations of step S3 and below.

On the other hand, as a result of the determination in step S5, the average value of the lower temperature calculated in step S2 ( ) And the average value of the upper temperature ( ) Difference is greater than 3 ° C (Yes, for example), the process proceeds to step S13, and the fan motor driving means 50 proceeds to step S8 while driving the fan motor 'strong' and repeats the operation of step S8 or less. do.

On the other hand, as a result of the determination in step S6, the average value of the lower temperature calculated in step S2 ( ) And the average value of the upper temperature ( If the difference is not equal to 3 ° C (for example, No), proceed to step S12 and proceed to step S8 while driving the fan motor 'about' by the fan motor driving means 50 to perform the operation of step S8 or less. Repeat.

Then, as a result of the discrimination in step S10, the average value of the suction port temperatures calculated in step S2 ( If () is not equal to the temperature set by the user (No), the process proceeds to step S14, returns to step S3 while the compressor is turned on, and repeats the operations of step S3 and below.

On the other hand, as a result of the determination in step S3, the average value of the upper temperature calculated in step S2 ( Is the average value of the lower temperature ( If larger than (Yes), go to Step S15 to calculate the average value of the upper temperature ( ) And the average value of the lower temperature ( Is determined to be greater than 3, for example, and the average value of the upper temperature ( ) And the average value of the lower temperature ( If the difference is not greater than 3 ° C (NO), the average value of the upper temperature ( ) And the average value of the lower temperature ( Is determined to be equal to, for example, 3 ° C.

As a result of the determination in step S16, the average value of the upper temperature ( ) And the average value of the lower temperature ( If the difference of) is 3 ° C. (Yes, for example), the process proceeds to step S17 by the louver motor driving means 60 in step S18 while driving the fan motor to 'middle' by the fan motor driving means 50. The upper louver motor is driven to fix the angle of the upper louver 5 at the second position (45 °) while the lower louver motor is driven to fix the angle of the lower louver 5 'at the third position (0 °). In step S9, the operation of step S9 or less is repeated.

On the other hand, as a result of the determination in step S15, the average value of the upper temperature calculated in step S2 ( ) And the average value of the lower temperature ( ) Difference is greater than 3 ° C (Yes, for example), the process proceeds to step S20, and the fan motor driving means 50 proceeds to step S18 while driving the fan motor 'strong' to repeat the operation of step S18 or less. do.

On the other hand, as a result of the determination in step S16, the average value of the upper temperature calculated in step S2 ( ) And the average value of the lower temperature ( If the difference is not equal to 3 ° C (e.g., NO), go to step S19 and proceed to step S18 while driving the fan motor 'about' by the fan motor driving means 50 to perform the operation below step S18. Repeat.

Then, as a result of the determination in step S4, the average value of the upper temperature calculated in step S2 ( Is the average value of the lower temperature ( In the case of (Yes), go to step S21 and the upper motor 5 and the lower louver (5) by the louver motor driving means 60 while driving the fan motor 'strong' by the fan motor driving means 50. Step 5 is performed while the upper louver motor and the lower louver motor are driven to repeatedly swing the angle of 5 ') between the third position (0 °) and the first position (90 °), and the operation of step S9 or less is repeated.

According to the temperature control method of the air conditioner according to the present invention as described above, by using the temperature sensor installed in the top and bottom of the air conditioner and the suction port to accurately grasp the temperature distribution of the room to maintain the entire space of the room at a constant temperature In addition, it is possible not only to maintain a comfortable indoor environment, but also to reduce the power consumption of the air conditioner by eliminating unnecessary operations of the compressor, thereby having an excellent effect of achieving a power saving effect.

Claims (1)

It is attached to the upper temperature sensor and the lower temperature sensor for detecting the upper and lower temperatures of the room, the inlet temperature sensor installed at the inlet for intake of indoor air, and the upper and lower ends of the air outlet, respectively. And an air conditioner having an upper louver and a lower louver for adjusting the direction of the discharged air, the average temperature calculating step of calculating an average value for a predetermined time with respect to the temperature detected by each temperature sensor, and the calculated upper temperature. If the average value and the lower temperature average value is the same, the first temperature control step for driving the indoor fan motor 'strong' and reciprocating the angle of the upper and lower louvers from the first position to the third position, respectively, When the value obtained by subtracting the upper temperature average value from the lower temperature average value is larger than a predetermined temperature, the indoor fan motor is driven to 'strong' and at the same time, the A second temperature adjusting step of fixing the angle of the upper louver to the third position and fixing the angle of the lower louver to a second position which is halfway between the first position and the third position, and the upper portion at the lower temperature average value When the value obtained by subtracting the average temperature value is equal to the predetermined temperature, the indoor fan motor is driven to 'middle', the angle of the upper louver is fixed to the third position, and the angle of the lower louver is set to the third temperature. When the third temperature adjusting step of fixing to the second position and the value obtained by subtracting the upper temperature average value from the lower temperature average value is lower than the predetermined temperature, the indoor fan motor is driven to 'about' and the upper louver The fourth temperature adjustment step of fixing the angle of the to the third position, the angle of the lower louver to the second position, and the value obtained by subtracting the lower temperature average value from the upper temperature average value is the predetermined temperature. If larger, the fifth temperature adjusting step of driving the indoor fan motor to the 'strong' and at the same time to fix the angle of the upper louver to the second position, and to fix the angle of the lower louver to the first position And subtracting the lower temperature average value from the upper temperature average value equals the predetermined temperature, driving the indoor fan motor to 'middle', and fixing the angle of the upper louver to the second position. And a sixth temperature adjustment step of fixing the angle of the lower louver to the first position, and when the value obtained by subtracting the lower temperature average value from the upper temperature average value is lower than the predetermined temperature, the indoor fan motor is 'about'. And a seventh temperature adjusting step of fixing the angle of the upper louver to the second position and fixing the angle of the lower louver to the first position, and the average value of the upper temperature and the suction hole. The first to the temperature of the air conditioning control method, characterized in that configured by comprising a seventh step of repeating the temperature control step repeated until the temperature becomes equal to the average value.