KR20010036543A - Method for controlling a fan motor at an outdoor unit - Google Patents

Abstract

PURPOSE: A method for controlling operation of fan motor for outdoor unit is provided to achieve an improved operational reliability of the compressor and the air conditioner by rapidly restarting operation of the compressor through the continuous operation of the fan motor. CONSTITUTION: A method comprises a step(S10) of setting an initial control temperature for controlling operation speed of the fan motor of the outdoor unit into an upper limit temperature and a lower limit temperature, respectively, and operating an air conditioner; a step(S20) of sequentially sensing the operation of an overload protective thermostat of the compressor of the outdoor unit and freezing of the indoor unit heat exchanger during operation of the air conditioner, and resetting the initial control temperature in accordance with the sensed result; and a step(S30) of controlling operation speed of the indoor unit fan motor in accordance with the control temperature reset in the previous step.

Description

Method for controlling a fan motor at an outdoor unit

The present invention relates to a control method of a fan motor of an outdoor unit. More specifically, the operating speed of the fan motor mounted in the outdoor unit of the separate air conditioner separating the indoor unit and the outdoor unit is determined by the compressor state of the outdoor unit or the state of the heat exchanger of the indoor unit. The present invention relates to a control method of a fan motor of an outdoor unit that can be actively changed according to the present invention.

Conventionally, the fan motor control method of the outdoor unit of the separate air conditioner is as follows.

In addition to the cooling operation of the air conditioner, any upper and lower control temperature (e.g., X = 22 ° C (lower limit), Y = 23 ° C (upper limit) or X = 28 ° C (lower limit), Y = 29 ° C) through the key input unit Set the (upper limit) to the reference control temperature to determine whether the outdoor motor's motor speed is high. In this step, if the operating speed is high speed, it is determined whether the outdoor temperature detected by the outdoor temperature sensor is less than the reference lower limit control temperature. If the operating speed is low, it is determined whether the outdoor temperature is higher than the reference upper limit control temperature. At this stage, if the outdoor temperature is below the reference lower limit control temperature, the operating speed is switched from high speed to low speed. If not, the operating speed is kept at high speed. If the outdoor temperature is above the reference upper limit control temperature, the operating speed is low. Is changed to high speed, and if it is not abnormal, the operation speed is kept at high speed.

As a result, the operation speed of the fan motor of the outdoor unit is controlled to be high speed or low speed according to the result of comparing the initially set reference upper and lower control temperature and the sensed outdoor temperature with each other.

However, if the reference upper and lower control temperature is set too low, the heat exchanger of the indoor unit is frozen as the outdoor unit heat exchange rate becomes relatively higher than the indoor unit side heat exchange rate, and conversely, if the reference upper and lower control temperature is set too high, the outdoor unit As the side heat exchange rate is almost the same as the indoor unit heat exchange rate, a large amount of liquid refrigerant is introduced into the compressor, and as a result, the compressor is overloaded, and an overload protection means installed in the compressor, that is, an OLP overload protect thermostat, is operated. . In this case, while the operation of the compressor is stopped, the outdoor unit fan motor is also stopped.

At this time, since the user needs to operate again to resume the operation of the compressor, there is a problem that the operation reliability of the compressor and the operation reliability of the air conditioner are not guaranteed.

In addition, when controlling the operation speed of the fan motor of the outdoor unit at a constant reference control temperature, the change of state of the air conditioner such as the shortage of the refrigerant or the excess of the refrigerant causes the above-mentioned problem to worsen.

This disadvantage has been found to be caused by the constant upper and lower reference temperature for controlling the operation speed of the fan motor of the outdoor unit is always set despite the change of the state of the compressor and the heat exchanger of the indoor unit.

In order to solve the above problems, the present invention sequentially detects the compressor state of the outdoor unit and the heat exchanger state of the indoor unit, and according to the detected result for the initial upper and lower control temperature for controlling the operating speed of the fan motor of the outdoor unit The present invention provides a fan motor control method of an outdoor unit capable of actively varying the operating speed of a fan motor of an outdoor unit according to an initial upper and lower control temperature reset by addition / subtraction of a predetermined value.

1 is a circuit diagram schematically showing a control method of a fan motor of an outdoor unit according to the present invention;

2 is a flowchart illustrating a control method of a fan motor of an outdoor unit according to the present invention;

* Description of the symbols for the main parts of the drawings *

10: microcomputer 11: sensor for outdoor temperature detection

12: Sensor for detecting OLP thermostat operation

13: Sensor for freezing detection of the heat exchanger of the indoor unit

20: drive circuit 30: relay

The fan motor control method of the outdoor unit of the air conditioner for achieving the above object is to operate the air conditioner by setting the initial control temperature for controlling the operation speed of the fan motor of the outdoor unit to the upper and lower temperature of a predetermined range, respectively. step; Sequentially sensing the operation of the overload preventing means of the compressor of the outdoor unit and the freezing of the heat exchanger of the indoor unit during the operation of the air conditioner in the operation step; Resetting the initial control temperature according to the result detected in the sensing step; And controlling the driving speed of the fan motor of the outdoor unit according to the control temperature reset in the resetting step.

The control method of the fan motor of the outdoor unit according to the present invention sequentially detects the operation of the overload prevention means of the compressor of the outdoor unit and the freezing of the heat exchanger of the indoor unit, and controls the operation speed of the fan motor of the outdoor unit according to the detected result. The technical point is that.

Hereinafter, a preferred embodiment of a driving speed control method of a fan motor of an outdoor unit according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic circuit diagram for controlling the operating speed of the fan motor of the outdoor unit in the air conditioner according to the present invention.

The operation of the air conditioner according to the present invention and the operation of the fan motor of the outdoor unit are controlled by the microcomputer 10 which processes a signal input through a key input unit (not shown) and a signal sensed by a plurality of sensors. The microcomputer 10 is connected to the sensor 11 for outdoor temperature detection, the sensor 12 for detecting the OLP thermostat operation of the compressor, and the sensor 13 for freezing detection of the heat exchanger of the indoor unit.

The outdoor temperature sensor 11 is installed in an outdoor unit and detects an outdoor temperature that is determined to be compared with a control temperature input through a key input unit connected to the microcomputer 10.

The OLP thermostat actuation sensor 12 is typically connected to a wire capable of sensing current applied to the compressor, and detects the operation of an OLP thermostat (overload protect thermostat) for stopping the compressor operating under an overload condition. do. The OLP thermostat detects an overload of a compressor operating under abnormal conditions such as oil shortage or overcapacity and liquid refrigerant excess, and stops the compressor. Typically, this OLP thermostat is a type of thermocouple utilizing the overheating characteristics typically associated with overload operation of the compressor. Accordingly, the sensor 12 for detecting the operation of the OLP thermostat 12 detects a decrease in current or an increase in resistance applied to the compressor operating under an abnormal state, detects that the compressor is stopped, or involves an operation of the OLP thermostat. To sense the internal temperature of the.

The sensor 13 for freezing detection of the heat exchanger of the indoor unit is installed in the indoor unit, preferably installed in the refrigerant pipe of the heat exchanger of the indoor unit, and detects the freezing of the heat exchanger of the indoor unit due to insufficient heat exchange with the indoor air. do.

On the other hand, the OLP thermostat operation detection sensor 12 detects an abnormal state of the heat exchanger of the compressor and the indoor unit such as the freezing of the heat exchanger by the sensor 13 for OLP thermostat operation and freezing detection of the heat exchanger of the indoor unit. In this case, the operation of the compressor of the outdoor unit is temporarily stopped by the control signal of the microcomputer 10, but the fan motor of the outdoor unit continues to operate. If the normal state of the compressor and the heat exchanger of the indoor unit is detected during this state, the compressor The operation of is resumed. Optionally, operation of the compressor may continue even if freezing of the heat exchanger of the indoor unit and OLP thermostat operation of the compressor are detected.

The microcomputer 10 receiving the signals sensed by the sensors 11, 12, and 13 transmits the result of comparing and determining the signals to the driving circuit 20. The drive circuit 20 is connected to a relay 30 for controlling the fan motor 40 of the outdoor unit at a high speed or a low speed. Therefore, the fan motor 40 of the outdoor unit is driven at a high speed or a low speed by the operation of the relay 30.

Hereinafter, a method of controlling the driving speed of the fan motor of the outdoor unit will be described with reference to FIG. 2.

Any upper and lower temperatures (e.g., X = 22 ° C (lower limit), Y = 23 ° C (upper limit) or X = 28 ° C (lower limit), Y = 29 ° C (upper limit) to control the running speed of the outdoor motor's fan motor). ) Is input through the key input unit connected to the microcomputer 10, and the air conditioner is operated as it is set to the initial control temperature (S10).

While the air conditioner is in operation, the operation of the OLP thermostat and the freezing of the heat exchanger of the indoor unit are sequentially detected, and according to the detected result, the initial upper / lower limit is added by subtracting / adding each predetermined value for the initial upper / lower control temperature. The control temperature is reset (S20).

In this case, when the operation of the OLP thermostat is detected by the sensor for detecting the operation of the OLP thermostat, the compressor in operation is temporarily stopped and the predetermined value, for example, in the range of 0.5 ° C to 2 ° C, for the initial upper and lower control temperatures, respectively. The control temperature (e.g., X = 27 ° C (lower limit), Y = 28 ° C (upper limit), subtracted from the temperature, preferably 1 ° C, is reset to the initial upper and lower control temperature via the microcomputer.

Although the operation of the OLP thermostat is not detected, when the freezing of the heat exchanger is detected by the freezing sensor of the heat exchanger of the indoor unit, the compressor in operation is temporarily stopped and the predetermined value for the initial upper and lower control temperatures, respectively, For example, a temperature in the range of 0.5 ° C to 2 ° C, preferably 1 ° C added to the control temperature (e.g., X = 23 ° C (lower limit), Y = 24 ° C (upper limit)) is initially set by the microcomputer to the upper and lower control temperature. Is reset.

However, if the operation of the OLP thermostat or the freezing of the heat exchanger of the indoor unit is not detected, the initial control temperature is maintained.

If the operation of the OLP thermostat and the freezing of the heat exchanger of the indoor unit are not detected, the operating speed of the fan motor of the outdoor unit may be high or low depending on the initial upper and lower control temperature set in the reverse direction, and vice versa. It is controlled to (S30).

In this case, it is determined whether the driving speed of the outdoor motor of the outdoor unit is a high speed or a low speed (S30a). If the operating speed of the motor is high speed, it is determined whether the outdoor temperature detected by the outdoor temperature sensing sensor is lower than the lower limit control temperature in step S20. If the driving speed of the motor is low, it is determined by the outdoor temperature sensing sensor. It is determined whether the detected outdoor temperature is equal to or higher than the upper limit control temperature in step S20 (S30b). If the outdoor temperature is below the lower limit control temperature, 홴 the motor speed is changed from high speed to low speed, and if the outdoor temperature is not below the lower limit control temperature, the motor speed is maintained at high speed, if the outdoor temperature is upper limit control, If the temperature is equal to or higher, the operating speed of the motor is changed from low speed to high speed. If the outdoor temperature is not higher than the upper limit control temperature, the operating speed of the motor is maintained at low speed (S30c).

According to the control method of the fan motor of the outdoor unit according to the present invention, although the operation of the compressor is temporarily stopped by the operation of the OLP thermostat for detecting the abnormal state of the compressor of the outdoor unit or the freezing of the heat exchanger of the indoor unit, the operation of the outdoor unit fan motor is continued. By quickly restarting the operation of the compressor by the normal operation, the operation reliability of the compressor and thus the operation reliability of the air conditioner can be improved.

In addition, the air conditioner can be operated more efficiently as the initial upper and lower control temperature for controlling the operating speed of the fan motor of the outdoor unit is actively changed according to the state of the compressor and the state of the heat exchanger of the indoor unit.

The present invention is not limited to the above-described preferred embodiments, but includes modifications that can be variously carried out within the scope of the technical idea of the present invention, and such modifications are also described by those skilled in the art to which the present invention pertains. You will know that it is not beyond the scope of thought.

Claims (7)

a) operating an air conditioner by setting initial control temperatures for controlling the operation speed of the outdoor motor of the outdoor unit to the upper and lower limit temperatures of a predetermined range; b) sequentially sensing the operation of the overload protection means of the compressor of the outdoor unit and the freezing of the heat exchanger of the indoor unit during operation of the air conditioner in step a); c) resetting the initial control temperature according to the result detected in step b): and d) controlling the operation speed of the outdoor unit fan motor according to the control temperature reset in step c); 홴 motor control method of the outdoor unit comprising a. According to claim 1, wherein the step c) is subtracted by Δ ℃ to the initial upper limit control temperature when the operation of the overload protection means of the compressor of the outdoor unit is detected, and if the freezing of the heat exchanger of the indoor unit is detected, The fan motor control method of the outdoor unit characterized by adding as much as (DELTA) degreeC with respect to an initial lower limit control temperature. The fan motor control method of an outdoor unit according to claim 2, wherein Δ ° C belongs to 0.5 ° C to 2 ° C. The method according to any one of claims 1 to 3, wherein step d) e) determining whether the driving speed of the motor of the outdoor unit is high speed or low speed; f) when the operation speed of the outdoor motor of the outdoor unit is high in step (e), it is determined whether the outdoor temperature detected by the outdoor temperature sensor is lower than or equal to the lower limit control temperature in step (c); Determining whether the outdoor temperature detected by the outdoor temperature sensor is equal to or higher than the upper limit control temperature in step (c) when the operation speed of the outdoor motor is low; And g) if the outdoor temperature in step (f) is less than or equal to the lower limit control temperature in step (c), converts the operating speed of the fan motor of the outdoor unit to a low speed, and maintains it at high speed if it is not below; If the outdoor temperature is equal to or higher than the upper limit control temperature in step (c), switching the driving speed of the fan motor of the outdoor unit to high speed, and maintaining the low speed if not abnormal; 홴 motor control method of the outdoor unit comprising a. The outdoor unit according to claim 1, wherein the operation detection of the overload preventing means of the compressor of the outdoor unit in step b) detects any one of a current, a resistance applied to the compressor, and an operating temperature of the overload preventing means. 홴 How to control the motor. The method of claim 1, wherein the freezing detection of the heat exchanger of the indoor unit in step b) detects the temperature of the refrigerant pipe of the heat exchanger. The method of claim 1, wherein the step b) further comprises stopping the operation of the compressor when the operation of the overload protection means of the compressor of the outdoor unit and the freezing of the heat exchanger of the indoor unit are detected. Motor control method.