KR100237927B1 - Operation method for air conditioner - Google Patents

Abstract

The present invention relates to a method of driving an air conditioner, wherein the microcomputer 40 detects an outdoor heat exchanger temperature and compares the detected outdoor heat exchanger temperature with a cooling set temperature, a blowing set temperature, a heating set temperature, and a defrost set temperature. Temperature determination process; A cooling control process of driving the driving unit 50 in the cooling mode when the temperature of the outdoor heat exchanger is greater than or equal to the cooling set temperature; A blowing control process of driving the driving unit 50 in a blowing mode if the temperature of the outdoor heat exchanger is within a blowing setting temperature range; A heating control process of driving the driving unit 50 in the heating mode when the determination result indicates that the temperature of the outdoor heat exchanger is lower than the heating set temperature; A defrost control process of driving the driving unit 50 in the defrost mode when the first determination time elapses after the temperature determination result in the heating mode; And a defrost stop process of releasing the defrost mode when the second set time elapses after the defrost control process.

That is, the present invention can simplify the wiring process and reduce the manufacturing cost by simultaneously performing the automatic and defrosting operation with one outdoor heat exchanger temperature sensor.

Description

How to drive an air conditioner

The present invention relates to an air conditioner, and more particularly, to a method of driving an air conditioner by removing an outdoor temperature sensor of an air conditioner to perform automatic operation and defrosting operation with an outdoor heat exchanger temperature sensor.

In the air conditioner, in particular, the heat pump type air conditioner is one of the air conditioners that reverses the cooling cycle of the air conditioner, that is, reverses the flow of the refrigerant to serve both cooling and heating. The usage area is gradually expanding according to the advantage that it can be used regardless of season.

The heat pump type air conditioner liquefies a refrigerant gas compressed at a high temperature and a high pressure in a compressor in a condenser, changes a liquid refrigerant to a low temperature in an expansion valve, and then uses an evaporator. By the vaporization in the cooling chamber to cool the room by the heat of vaporization of the refrigerant and a warmer using the heating of the burner (bunner).

Therefore, the heat pump type air conditioner drives cooling / heating / blowing using the characteristics of the air conditioner and the hot air blower.

On the other hand, the operation control method of the air conditioner using the above-mentioned cooling / heating / blowing drive can be classified into three types, first is manual operation, second is automatic operation, third is defrost operation.

The manual driving method can determine the cooling / heating / blowing mode according to the user's key operation, and the automatic driving method eliminates the inconvenience of key operation in the manual driving method.

That is, the automatic operation method detects the outdoor temperature, compares the detected outdoor temperature with the user's selected indoor cooling / heating set temperature, and automatically selects the air conditioner's cooling / heating / blowing operation mode according to the temperature difference. Refers to a method for proper cooling / heating and blowing control.

In addition, the defrosting operation is an additional function of the air conditioner for removing the frost attached to the outdoor heat exchanger, and adopts a method of switching from the heating mode to the cooling mode according to the accumulated time of the outdoor heat exchanger temperature.

One example of a manual / automatic / defrost operation method of such an air conditioner is described in detail below with reference to FIG. 1.

Prior to the description, the driving unit 50 shown in FIG. 1 includes a compressor, an indoor fan, and the like, and respective drawings are omitted for convenience.

First, manual and automatic driving methods are described.

The microcomputer 40 receives the indoor temperature sensed by the indoor temperature sensor 10 and the outdoor temperature sensed by the outdoor temperature sensor 20, respectively.

Each of the temperature sensors 10 and 20 has a predetermined level based on a voltage dividing ratio of the thermistor (not shown) in which the internal resistance value changes as the temperature changes, and the voltage level changed according to the resistance value change of the thermistor. The voltage is output, and the microcomputer 40 detects the voltage level supplied from the indoor and outdoor temperature sensors 10 and 12 to determine the temperature.

Referring to the operation process by the microcomputer 40 according to the sensed indoor / outdoor temperature as follows.

At the beginning of the air conditioner operation, the microcomputer 40 determines whether the current operation mode is automatic or manual, which can be performed by the microcomputer 40 searching whether the corresponding switch is turned on or off by a normal switch circuit.

As a result of the determination, in the manual mode, operation control appropriate to the selected mode (cooling / heating / blowing) is performed. Such a control process can be easily understood by those skilled in the art. It was.

When the determination result is the automatic mode, the outdoor sensing temperature inputted by the outdoor temperature sensor 20 is decoded to determine whether the temperature is a cooling set temperature, a heating set temperature, or a blow set temperature.

As a result of the determination, if the cooling set temperature is greater than 26 ° C., the microcomputer 40 automatically selects the air conditioner operation mode as the cooling mode and performs cooling operation control while monitoring whether the cooling set temperature is changed.

That is, first, it is determined whether the cooling set temperature is changed. This is to determine whether the user is unsatisfied with the current indoor / outdoor temperature to change the set temperature according to a normal temperature setting switch operation.

On the other hand, when the sensed outdoor temperature is within the cooling set temperature to within the heating set temperature (22 ° C to 26 ° C), the compressor 50 is automatically selected as the blowing mode and the operation of the compressor 50 is stopped, and the indoor fan 50 is in the set mode. Drive to (strong, weak, medium).

That is, when the air blowing mode is automatically selected, the microcomputer 40 outputs a low signal at the output terminal, and the compressor 50 is stopped as the relay switch (not shown) corresponding to the low signal is turned off, and the indoor fan 50 is It operates in the mode (strong, medium, or weak) set by the normal selection switch circuit.

For example, if the 'strong' mode is set by the user, the drive control signal output from the microcomputer 40 is supplied to the relay and the indoor fan 50 is operated in the 'strong' mode as the relay switch is turned on. will be.

As another case, when the detected indoor temperature is a heating set temperature, for example, 22 ° C. or less, the microcomputer 40 automatically selects an air conditioner operating mode as a heating mode and monitors whether the heating set temperature is changed and performs heating operation control.

The defrosting operation is a driving mode in which only the compressor 50 is driven to remove frost attached to the outdoor heat exchanger in the heating mode of the air conditioner, and the accumulated time of the outdoor heat exchanger, for example, 0 ° C ( For example, if 45 minutes are detected and the accumulated time is satisfied, the defrosting operation is performed in which the four sides and the indoor / outdoor fan are turned off and only the compressor is turned on.

This defrosting operation is terminated under two conditions. That is, the defrosting operation is terminated when the temperature of the outdoor heat exchanger is a predetermined temperature, for example, 17 ° C. or more, or when the defrosting operation time passes the set time. At this time, the setting time varies depending on the amount of implantation, but is generally between 3 and 15 minutes.

As described above, the operation method of the conventional air conditioner can achieve optimal cooling / heating control because it is automatically controlled according to the outdoor temperature, the room temperature, and the user's set temperature where the cooling / heating / blowing control of the air conditioner is detected. However, there was one major drawback.

That is, the air conditioner requires a temperature sensor necessary for various driving control under the automatic mode, that is, heating / blowing / cooling / defrosting operation, that is, an indoor temperature sensor, an outdoor temperature sensor, and an outdoor heat exchanger temperature sensor. There is a problem that the complexity and manufacturing cost rises.

Accordingly, the present invention has been made to solve the above problems, the method of driving the air conditioner to perform the automatic operation and the defrost operation by the outdoor heat exchanger temperature sensor by eliminating the outdoor temperature sensor required for the automatic operation of the air conditioner. The purpose is to provide.

That is, the present invention includes a temperature discrimination process of comparing the detected outdoor heat exchanger temperature with a cooling set temperature, a blowing set temperature, a heating set temperature, and a defrost set temperature by the microcomputer sensing the outdoor heat exchanger temperature; A cooling control process of driving the driving unit in the cooling mode when the temperature of the outdoor heat exchanger is equal to or higher than the cooling set temperature; A blowing control process of driving the driving unit in the blowing mode if the temperature of the outdoor heat exchanger is within the blowing setting temperature range; A heating control process of driving the driving unit in the heating mode when the determination result indicates that the outdoor heat exchanger temperature is lower than the heating set temperature; A defrost control process of driving the driving unit in the defrost mode when the first determination time elapses after the temperature determination result in the heating mode; According to an aspect of the present invention, there is provided a method of driving an air conditioner, including a defrost stop process of releasing a defrost mode when a second set time passes after a defrost control process.

1 is a block diagram of a driving device of a conventional air conditioner,

2 is a functional block diagram of an air conditioner for carrying out the method of the present invention;

3 is a flow chart of a process in which the air conditioner is driven by the microcomputer of FIG.

<Explanation of symbols for main parts of the drawings>

10: room temperature sensor 20: outdoor temperature sensor

30: outdoor heat exchanger temperature sensor 40: microcomputer

50: drive unit 60: key input unit

T: Outdoor heat exchanger temperature A: Cooling set temperature

B: Heating set temperature A to B: Blowing set temperature

C: Defrost set temperature

The above objects and various advantages of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an air conditioner for performing the method according to the present invention, which includes an indoor temperature sensor 10, an outdoor heat exchanger temperature sensor 30, a microcomputer 40, a driver 50, and a key input unit 60. ).

First, the indoor temperature sensed by the indoor temperature sensor 10 and the outdoor heat exchanger temperature detected by the outdoor heat exchanger temperature sensor 30 are input to the microcomputer 40.

Each of the temperature sensors 10 and 30 has a predetermined level based on a voltage dividing ratio between the thermistor (not shown) and the voltage level changed according to the resistance value change of the thermistor. The voltage is output, and the microcomputer 40 determines the temperature by detecting the voltage level supplied from the indoor and outdoor heat exchanger temperature sensors 10 and 30.

The operation process by the microcomputer 40 according to the sensed indoor / outdoor temperature is described in detail with reference to the flowchart of FIG. 3.

Prior to the description, since the defrosting operation of the air conditioner is a necessary condition performed under the heating mode as described above, it will be described after the heating mode operation is explained.

First, at the beginning of the air conditioner operation, the microcomputer 40 determines whether the current operation mode is automatic or manual, which is whether the microcomputer 40 is on / off by the key signal of the key input unit 60. This is possible by searching for (step 100).

If the determination result is the manual mode, operation control corresponding to the mode (cooling or heating or blowing mode) selected by the user is performed (step 102) and (step 104).

As a result of the determination, in the automatic mode, the outdoor heat exchanger detection temperature (T) input from the indoor heat exchanger temperature sensor 30 is decoded, and the temperature is determined as the cooling set temperature (A) or the heating set temperature (B) or the blowing set temperature ( A to B) (step 106), (step 108).

As a result of the determination, if the cooling set temperature (A), for example, 26 ° C. or more, the microcomputer 40 automatically selects the air conditioner operation mode as the cooling mode, and performs cooling operation control while monitoring whether the cooling set temperature is changed (step 110). ).

That is, it is first determined whether or not the cooling set temperature (A) is changed, which is to determine whether the user is unsatisfied with the current indoor or outdoor temperature to change the set temperature according to the normal temperature setting switch operation.

On the other hand, when the detected outdoor heat exchanger temperature (T) is within the cooling set temperature (A) to the heating set temperature (B) (22 ° C to 26 ° C), the operation of the compressor 50 is automatically selected as the blowing mode. Then, the indoor fan 50 is driven in the set mode (strong, weak, medium) (step 112), (step 114).

That is, when the air blowing mode is automatically selected, the microcomputer 40 outputs a low signal at the output terminal, and the compressor 50 is stopped as the relay switch (not shown) corresponding to the low signal is turned off, and the indoor fan 50 is It operates in the mode (strong, medium, or weak) set by the normal selection switch circuit.

For example, if the 'strong' mode is set by the user, the drive control signal output from the microcomputer 40 is supplied to the relay and the indoor fan 50 is operated in the 'strong' mode as the relay switch is turned on. will be.

In other cases, if the detected outdoor heat exchanger temperature (T) is the heating set temperature (B), for example, 22 ° C or less, the microcomputer 40 automatically selects the air conditioning operating mode as the heating mode and then changes the heating set temperature (B). Heating operation control is performed while monitoring whether or not (step 116), (step 118).

The defrosting operation is a driving mode in which only the compressor 50 is driven to remove frost attached to the outdoor heat exchanger in the heating mode of the air conditioner, and the set defrost temperature (C) of the outdoor heat exchanger, for example, 0 ° C. If the cumulative time (e.g., 45 minutes) is detected and the accumulated time is satisfied (step 120), (step 122), the defrosting operation is performed to turn off the four sides and the indoor / outdoor fan and turn on only the compressor (step 124). .

This defrosting operation is terminated under two conditions. That is, the defrosting operation is terminated when the temperature T of the outdoor heat exchanger is a predetermined temperature, for example, 17 ° C. or more, or when the defrosting operation time passes the set time (step 126). At this time, the setting time varies depending on the amount of implantation, but is generally between 3 and 15 minutes.

As described above, the present invention can simplify the wiring process and reduce the manufacturing cost by simultaneously performing the automatic and defrosting operation with one outdoor heat exchanger temperature sensor.

Claims (1)

A temperature discrimination process of the microcomputer 40 sensing the outdoor heat exchanger temperature and comparing the detected outdoor heat exchanger temperature with a cooling set temperature, a blowing set temperature, a heating set temperature, and a defrost set temperature; A cooling control process of driving the driving unit 50 in a cooling mode when the temperature of the outdoor heat exchanger is greater than or equal to the cooling set temperature; A blowing control process of driving the driving unit 50 in a blowing mode if an outdoor heat exchanger temperature is within the blowing set temperature range as a result of the determination; A heating control process of driving the drive unit 50 in a heating mode when the determination result indicates that an outdoor heat exchanger temperature is lower than the heating set temperature; A defrost control process of driving the drive unit 50 in the defrost mode when the temperature is determined to be lower than the defrost set temperature in the heating mode and the first set time has elapsed; And a defrost stop process of releasing the defrost mode when a second predetermined time elapses after the defrost control process.

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