KR100461655B1 - Fan control method for airconditioner - Google Patents

Abstract

PURPOSE: An indoor fan adjustment method of an air conditioner is provided to adjust the speed of an indoor fan motor to the rotational speed desired by a user within a rotatable range of the indoor fan motor. CONSTITUTION: An indoor fan adjustment method of an air conditioner comprises steps of setting up the lowest rotational speed of an indoor fan motor and the highest rotational speed of the indoor fan motor(200); monitoring input of a signal for the control of the rotational speed of the indoor fan motor(210); raising or lowering the rotational speed of the indoor fan motor to the extent of a preset value if the signal for control of the rotational speed of the indoor fan motor is selectively input once(240); and consecutively raising or lowering the rotational speed of the indoor fan motor to the extent of a preset value within a range of the lowest rotational speed of the indoor fan motor and the highest rotational speed of the indoor fan motor if the signal for control of the rotational speed of the indoor fan motor is successively input(230).

Description

Fan control method for air conditioner {Fan control method for airconditioner}

The present invention relates to indoor fan control in an air conditioner, and more particularly, to an indoor fan control method of an air conditioner capable of variably adjusting the rotational speed of an indoor fan motor.

Generally, an air conditioner is comprised with the indoor unit and outdoor unit as shown in FIG. The air conditioner having the above configuration discharges cold air into the room during the cooling operation by the heat exchange action of the refrigeration cycle, and discharges warm air into the room during the heating operation. Inside the air conditioner, a refrigeration cycle for connecting the indoor unit and the outdoor unit through a pipe is provided.

The refrigeration cycle includes a heat exchanger (10) for discharging cold or warm air to the indoor unit on the indoor unit side, and a compressor (20) for compressing the refrigerant to high temperature and high pressure on the outdoor unit side, and condensing or evaporating the refrigerant to the outside. Heat exchanger 30 for discharging hot or cold air, the four sides 40 for switching the heating and cooling cycle, the expansion device 50 for adjusting the flow rate of the refrigerant flowing into the indoor heat exchanger 10 side, and the compressor 20 ), An accumulator 35 or the like for preventing the introduction of liquid refrigerant is provided.

At this time, the air amount exchanged by the indoor heat exchanger 10 and discharged into the room is determined according to the rotational speed of the indoor fan motor under the control of the controller. Therefore, if the rotational speed of the indoor fan motor is constantly controlled, the air volume of the discharged air is constant.

On the other hand, in the conventional air conditioner, when controlling the rotational speed of the indoor fan motor, the rotational speed of the indoor fan motor is determined in three stages of strong wind, middle wind and weak wind. Therefore, when the operation of the indoor fan is started while the product is driven, the indoor fan motor is controlled to be rotated at the set rotation speed of the air flow level set by the user.

That is, in the conventional air conditioner, the rotational speed of the indoor fan can be controlled only in three stages of the strong wind, the middle wind, and the weak wind. Therefore, the conventional air conditioner was not able to variously adjust the rotation speed of the indoor fan, which is caused by the performance dissatisfaction of the product.

In particular, when the user goes to bed while performing the cooling operation on a hot summer night, the air discharged from the air conditioner is directly in contact with the user. At this time, since the strong wind may harm the health of the user, it is desirable to be controlled by the weak wind as much as possible. However, in the case where the indoor fan rotation speed can be changed in only three stages as in the conventional air conditioner, the indoor fan rotation speed control which can be satisfied enough by the user cannot be achieved, and for this reason, consumers are dissatisfied with the performance of the product. Problems may occur.

Accordingly, an object of the present invention is to provide a method for controlling an indoor fan of an air conditioner capable of adjusting a speed of an indoor fan motor at a desired rotational speed in a rotatable range of an indoor fan motor.

1 is a configuration of a cooling cycle of a general air conditioner,

2 is a block diagram for controlling the indoor fan in the air conditioner according to the present invention;

3 is an operation flowchart for controlling the indoor fan in the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

50: power supply unit 55: control unit

60: remote control receiver 70: indoor fan motor rotation speed detection unit

75: display unit 80: reset unit

85: indoor fan motor rotational speed control unit 65: memory

The indoor fan control method of the air conditioner according to the present invention for achieving the above object, the setting step of setting the minimum indoor fan motor rotational speed and the maximum indoor fan motor rotational speed that can be controlled in the product; A monitoring step of monitoring whether a signal for controlling an indoor fan motor rotational speed is input; A first indoor fan motor rotation speed change step of increasing (or decreasing) the indoor fan motor rotation speed by a predetermined value when the indoor fan motor rotation speed control signal is selectively input once in the monitoring step; In the monitoring step, when the indoor fan motor rotational speed control signal is continuously input, within a range of the lowest indoor fan motor rotational speed and the maximum indoor fan motor rotational speed, a predetermined predetermined preset period of the indoor fan motor rotational speed And a second indoor fan motor rotational speed changing step of continuously raising (or decreasing) the value.

The indoor fan motor rotational speed control signal in the monitoring step, characterized in that using the air flow selection key.

In the changing of the second indoor fan motor rotation speed, the continuous input of the indoor fan motor rotation speed control signal is a state in which the air volume selection key selection signal is input to pass a predetermined key input period.

The predetermined period of changing the indoor fan rotation speed in the second indoor fan motor rotation speed change step is set to 1/4 second.

Hereinafter, a method for controlling an indoor fan of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram for controlling the indoor fan of the air conditioner according to the present invention.

As shown, the air conditioner of the present invention includes a remote control receiver 60 for receiving a remote control signal, and an indoor fan motor rotation speed detection unit 70 for detecting the rotation speed of the indoor fan motor.

The remote control receiver 60 receives a signal for controlling the rotational speed of the indoor fan motor selected by the user through the remote control. The signal for controlling the rotational speed of the indoor fan motor received from the remote control receiver 60 is input to the controller 55 to be described later. In addition, the motor rotational speed detected by the indoor fan motor rotational speed detection unit 70. Also input to the controller 55. The indoor fan motor rotation speed detection unit 70 uses a speed detection element such as a hall sensor.

The control unit 55 performs the control for the heating and cooling operation of the air conditioner, and also controls the rotation speed of the indoor fan. The controller 55 determines which control is required for the indoor fan motor rotational speed control signal input through the remote controller receiver 60 and performs the necessary control. Power required by the controller 55 is supplied by the power supply unit 50. The controller 55 uses a built-in timer for counting time.

In addition, the present invention provides a display unit 75 for displaying a display signal according to an operation state of a product under the control of the controller 55, and drives the variable speed of the indoor fan under the control of the controller 55. The indoor fan motor rotational speed control unit 85 and the reset unit 80 and the like are included. The reset unit 80 is configured to return various data, which are variably adjusted according to the operation state of the product, to the system initial state.

Reference numeral 65 is a memory. The memory 65 stores various data necessary for controlling the product. For example, analysis data for the received data, control data necessary for control thereof, control algorithms for controlling the indoor fan rotation speed, and control algorithms for driving the product are stored. In addition, in order to variably control the rotational speed of the indoor fan, the minimum rotational speed, the highest rotational speed, the change width α for increasing or decreasing the speed of the indoor fan, etc. in the driveable range of the indoor fan are stored.

In addition, although not shown in Figure 3, the compressor is driven for the heat exchange operation of the heating and cooling, the four sides for switching the cooling and heating, the drive unit for driving the electronic expansion valve for controlling the amount of refrigerant entering the indoor side heat exchanger.

Next, the indoor fan control process of the air conditioner according to the present invention having the above configuration will be described.

3 is an operation flowchart for controlling the indoor fan in the air conditioner according to the present invention.

In the present invention, the control to increase (or lower) the rotational speed of the indoor fan by a predetermined value (α) in the controllable range of the rotational speed of the indoor fan. For the control, the minimum rotation speed and the maximum rotation speed of the indoor fan are set. Then, the control is performed to raise (or lower) the predetermined value α by the predetermined minimum value and the maximum value. And the continuous rising (or continuous falling) control of the indoor fan is to be made by the user's selection.

Therefore, in order to control the rotational speed of the indoor fan according to the present invention, a process of setting and storing the lowest rotational speed and the highest rotational speed in the memory 65 is first necessary.

In the product having such control data, the user outputs the product operation signal using the remote control. The product operation signal output from the remote control is received through the remote control receiver 60. The remote control receiver 60 converts the received product operation signal into a signal that can be recognized by the controller 55 and outputs the converted signal.

The controller 55 inputs a product operation signal and performs driving of a compressor for driving a refrigeration cycle and other necessary control based on control data stored in the memory 65. At this time, when the product operation signal input by the user is in the cooling operation mode and the current cycle is configured as the heating operation state instead of the cooling operation state, the four sides are controlled to switch the cycle to the cooling operation state. In addition, as the compressor is driven, the cooling cycle is operated, and the heat exchangers in the cooling cycle discharge heat regulated air by performing heat exchange with indoor air or outdoor air.

At this time, the display unit 75 receives and displays a display signal according to the driving state of the current product from the control unit 55. For example, the current room temperature display and the desired temperature display.

Meanwhile, the controller 55 monitors whether the air volume selection key is input through the remote controller receiver 60 while the product is being driven as described above. When the user wants to adjust the intensity of the wind discharged from the air conditioner while driving the product, the user selects the air volume selection key provided on the remote controller. The air volume selection key selected by the user using the remote controller is received by the remote controller receiver 60. The remote controller 60 converts the signal into a signal recognizable by the controller 55 and outputs the converted signal. When the air volume selection key is input to the controller 55 through the path (step 200), the controller 55 determines whether the air volume selection key is continuously input (step 210).

The step 210 is to determine when the user selects the air volume selection key provided on the remote controller once and maintains the state of pressing the air volume selection key. The determination of step 210 may be performed by determining whether the signal corresponding to the air volume selection key is continuously input after the key input period set in the product through the remote controller receiver 60.

When the user inputs the air volume selection key once by the determination in step 210, the controller 55 changes the motor rotation speed of the indoor fan by a predetermined value α to the indoor fan motor rotation speed controller 85. The control signal is outputted to the controller (step 240). The indoor fan motor rotational speed control unit 85 is controlled so that the rotational speed of the indoor fan motor is changed by a predetermined value from the current rotational speed and rotated. That is, the 240th step indicates that the rotational speed of the indoor fan motor is driven by one step change.

However, when the user continuously presses the air volume selection key in operation 210, the controller 55 determines whether a predetermined time has elapsed through the internal timer (operation 220). When the predetermined time elapses, the rotation speed of the indoor fan is changed by a predetermined value α (step 230). In this case, the control may be in various forms. For example, the controller may be circulated in a control form in which a predetermined value is sequentially increased from the current rotational speed to the maximum rotational speed, and then lowered again by a predetermined value when the maximum rotational speed is reached. Alternatively, the predetermined rotation may be sequentially lowered from the current rotational speed to the lowest rotational speed, and then circulated in a control form in which the predetermined rotational speed is increased once the minimum rotational speed is reached. Normally, when the fan speed is 1300 and the minimum speed is 1000, the change width is set to about 10.

The control of the step 230 is performed by changing the rotational speed of the indoor fan motor in the indoor fan motor rotational speed control unit 85 which receives the variable rotation speed of the indoor fan from the control unit 55.

As described above, the indoor fan control method of the air conditioner according to the present invention sets the minimum rotational speed and the highest rotational speed that can be controlled by the product, and when the user continuously presses the air volume control key during the product operation, in a predetermined cycle unit. And controlling to continuously raise (or lower) the rotational speed by a predetermined value. With this control, the present invention can select and use the speed of the indoor fan at a desired rotational speed within a band of the lowest rotational speed and the highest rotational speed.

The indoor fan control method of the air conditioner according to the present invention described above allows the user to select the desired air volume while gradually changing the rotation speed of the indoor fan when the user keeps pressing the air volume selection key. Therefore, the present invention can be variously adjusted the indoor fan air volume in the air conditioner, it is possible to increase the customer satisfaction with the product by such a control.

Claims (4)

A setting step of setting a minimum indoor fan motor rotation speed and a maximum indoor fan motor rotation speed which can be controlled by the product; A monitoring step of monitoring whether a signal for controlling an indoor fan motor rotational speed is input; A first indoor fan motor rotation speed change step of increasing (or decreasing) the indoor fan motor rotation speed by a predetermined value when the indoor fan motor rotation speed control signal is selectively input once in the monitoring step; In the monitoring step, when the indoor fan motor rotational speed control signal is continuously input, within a range of the lowest indoor fan motor rotational speed and the maximum indoor fan motor rotational speed, a predetermined predetermined preset period of the indoor fan motor rotational speed And a second indoor fan motor rotation speed change step of continuously raising (or decreasing) the value by a value. The method of claim 1, Indoor fan motor rotational speed control signal in the monitoring step, the indoor fan control method of the air conditioner, characterized in that using the air flow selection key. The method of claim 2, In the changing of the second indoor fan motor rotational speed, the continuous input of the indoor fan motor rotational speed control signal is a state in which the air volume selection key selection signal is input to pass a predetermined key input period. Fan control method. The method of claim 3, wherein The indoor fan control method of the air conditioner, characterized in that the predetermined period for changing the indoor fan rotation speed in the second indoor fan motor rotation speed change step is set to 1/4 second.