KR20090064977A - Controlling method for outdoor fan of air conditioner - Google Patents

Abstract

A method of controlling an outdoor unit fan of an air-conditioner is provided to maintain an operation waiting state of the outdoor unit fan when the number of rotations of the outdoor unit fan exceeds a reference number of rotations in the operation waiting state of the outdoor unit fan to thereby prevent an outdoor unit fan motor from being damaged. It is determined whether an outdoor unit fan operation signal is input in an operation waiting state of an outdoor unit fan(301). The number of rotations of the outdoor unit fan is detected when the outdoor unit fan operation signal is input(302). The detected number of rotations is compared to a reference number of rotations and the operation waiting state of the outdoor unit fan is maintained when the number of rotations of the outdoor unit fan exceeds the reference number of rotations(303,304).

Description

CONTROLLING METHOD FOR OUTDOOR FAN OF AIR CONDITIONER}

The present invention relates to a control method of an air conditioner, and more particularly, to an outdoor unit fan control method of an air conditioner that does not drive the outdoor unit fan in a situation in which the outdoor unit fan is reversely rotated by the reverse wind.

The air conditioner includes a compressor for compressing the sucked refrigerant, an outdoor heat exchanger for exchanging heat between the refrigerant compressed by the compressor and outdoor air, an expansion device for decompressively expanding the refrigerant condensed in the outdoor heat exchanger, and a decompression expansion in the expansion device. The indoor heat exchanger, which performs heat exchange between the refrigerant and the indoor air, is connected in series through the refrigerant pipe to form one refrigerant cycle. The outdoor heat exchanger and indoor heat exchanger are each equipped with an outdoor unit fan and an indoor unit fan. The rotation of the outdoor unit fan and the indoor unit fan causes forced suction and discharge of air from the outdoor heat exchanger and the indoor heat exchanger. More smoothly.

Since the outdoor heat exchanger is installed in a relatively well-ventilated outdoor place, there is a case in which the outdoor heat exchanger is rotated by the backwind introduced into the outdoor heat exchanger while the outdoor heat exchanger is not operating (for example, during a standby operation state). At this time, the reverse wind and reverse rotation are the opposite direction when the outdoor unit fan rotation direction when the outdoor heat exchanger operates normally is the forward rotation, and the wind direction discharged from the outdoor heat exchanger to the outside space outside the outdoor heat exchanger is the forward direction. It means reverse wind and reverse rotation.

When power is supplied to operate the outdoor heat exchanger while the outdoor unit fan is rotating in reverse, a rotating magnetic field is formed in the outdoor unit fan motor in the forward direction, and the outdoor unit fan is driven for forward rotation in the reverse state.

If the outdoor unit fan attempts to rotate excessively in a situation in which the outdoor unit fan rotates at a high speed due to strong reverse wind, the outdoor unit fan motor may be overloaded and the outdoor unit fan motor may be burned out.

To solve this problem, if the reverse rotation of the outdoor unit fan is detected, the reverse rotation signal is transmitted to the microcomputer to recognize that the outdoor unit fan motor is rotating reversely. In this case, the outdoor unit fan motor is not driven.

However, the conventional method has a problem in that the manufacturing cost is high due to a high manufacturing cost because it is necessary to add a connector such as photocouplers and wires for transmitting the reverse rotation signal to the microcomputer.

The present invention for achieving the above object is the step of determining whether the operation signal of the outdoor unit fan is input in the operation standby state of the outdoor unit fan, and detecting the rotational speed of the outdoor unit fan when the operation signal of the outdoor unit fan is input; When the rotation speed of the outdoor unit fan is greater than or equal to the reference rotation speed, maintaining the standby state of the operation of the outdoor unit fan.

Here, the step of maintaining the operation standby state of the outdoor unit fan is to ignore the operation signal of the outdoor unit fan and to maintain the outdoor unit fan in the stopped state.

The present invention may further include detecting a rotation speed of the outdoor unit fan which is changed while maintaining the standby state of operation of the outdoor unit fan.

In addition, the present invention further includes the step of driving the outdoor unit fan when the detected rotation speed of the outdoor unit fan drops below the reference rotational speed.

As described above, according to the outdoor unit fan control method of the air conditioner according to the present invention, if the rotation speed of the outdoor unit fan is higher than the reference speed in the standby state of the outdoor unit fan, the outdoor unit fan operation is maintained to maintain the outdoor unit fan motor burnout. It can prevent.

In addition, since the reverse signal is not received, there is an advantage in that manufacturing costs can be reduced by removing wires and connectors for transmitting the reverse signal.

In addition, by detecting the rotation speed of the outdoor unit fan changing during the operation state of the outdoor unit fan, the operation of the outdoor unit fan can be actively changed according to the rotation state of the outdoor unit fan which is changed in real time.

1A and 1B illustrate a refrigerant cycle of an air conditioner according to an embodiment of the present invention. Referring to FIG. 1A, an air conditioner according to an embodiment of the present invention may include a compressor for compressing a sucked refrigerant. 102, an outdoor heat exchanger 104 for exchanging heat between the refrigerant compressed by the compressor 102 and the outdoor air, an expansion device 106 for expanding under reduced pressure the refrigerant condensed in the outdoor heat exchanger 104, and an expansion device ( An indoor heat exchanger 108 in which heat exchange between the refrigerant expanded under reduced pressure and indoor air is performed in series 106 is connected in series through a refrigerant pipe to form a refrigerant cycle.

The outdoor heat exchanger 104 is provided with an outdoor unit fan 104b and an outdoor unit fan motor 104c. As shown in FIG. 1A, the outdoor unit fan 104b is rotated by driving the outdoor unit fan motor 104c, and the outdoor unit fan is rotated. The forward air flow discharged from the inside of the outdoor heat exchanger 104 to the outside is formed by the forward rotation of the 104b, so that the heat exchange in the outdoor heat exchanger 104a is more smoothly performed.

FIG. 1B illustrates a case in which the outdoor unit fan 104b reversely rotates (opposite to reverse rotation) due to a reverse wind (opposite direction of the forward air flow of FIG. 1A) entering the outdoor heat exchanger 104 from the outside. If the outdoor unit fan 104b is excessively attempted to rotate forward in the reverse rotation state, the outdoor unit fan motor 104c is overloaded, so in order to prevent burnout of the outdoor unit fan motor 104c, backwind is generated to prevent the outdoor unit fan 104b. ) Rotates reversely, it is necessary not to drive this outdoor unit fan motor 104c.

2 is a control block diagram of an air conditioner according to an embodiment of the present invention. Referring to FIG. 2, a motor rotation direction detection unit 204 and a power supply unit 206 are connected to an input side of a control unit 202 that controls the overall operation of an air conditioner, and an outdoor unit fan motor 104c and an outdoor unit fan to an output side. 104b is connected.

The motor rotation direction detection unit 204 connected to the input side of the control unit 202 is for detecting the rotation direction (strictly the rotation direction of the outdoor unit fan motor 104c) of the outdoor unit fan 104b, and the position of the motor rotor. The position of the rotor can be detected through a hall sensor used for detection, and the rotational direction of the rotor can also be detected through the position information of the motor rotor.

The motor rotation direction detection unit 204 is configured to transmit the position information of the motor rotor to the control unit 202 so that the control unit 202 can detect the rotation speed of the outdoor unit fan 104b.

The power supply unit 206 supplies power to the outdoor heat exchanger 104 including the outdoor unit fan motor 104c and the circuit inside the outdoor unit fan motor 104c.

The outdoor unit fan motor 104c uses a brushless DC motor to change the rotation speed and increase the rotation rate, and a converter for converting commercial AC power into DC to control the brushless DC motor, It consists of an inverter that converts this DC power source into a pulse-shaped multiphase AC power source, and a DC-link capacitor connecting the converter and the inverter. The inverter consists of a number of power switching elements.

The outdoor unit fan motor 104c is driven by receiving power through the power supply unit 206 so that the outdoor unit fan 104b mechanically connected to the outdoor unit fan motor 104c rotates.

The controller 202 determines whether the operation signal of the outdoor unit fan 104b is input in the operation standby state of the outdoor unit fan 104b, and drives the outdoor unit fan 104b when the operation signal of the outdoor unit fan 104b is input. In order to drive the outdoor unit fan 104b, the control unit 202 applies a driving voltage to the outdoor unit fan motor 104c. The rotation speed of the outdoor unit fan 104b is varied according to the magnitude of the driving voltage.

In addition, the controller 202 detects the rotation speed of the outdoor unit fan 104b, compares the detected rotation speed of the outdoor unit fan 104b with the reference rotation speed, and determines whether the outdoor unit fan 104b is operated (operation) according to the comparison result. , Stop).

FIG. 3 is a control flowchart illustrating an outdoor unit fan control process of an air conditioner according to an embodiment of the present invention. As shown in FIG. 3, the outdoor unit fan 104b is in an operation standby state (ie, a state in which operation is stopped). If the operation signal of the outdoor unit fan (104b) is input (301) and the operating signal of the outdoor unit fan (104b) is input (Yes of 301), the outdoor unit fan (104b) The number of revolutions is detected (302).

At this time, the control unit 202 receives the position information from the motor rotation direction detection unit 204 to detect the rotation speed of the outdoor unit fan (104b). Since this positional information is composed of pulse type information (e.g., 12 pulses per revolution), it is determined how much the pulses are output during a predetermined time to detect the rotation speed of the outdoor unit fan 104b.

On the other hand, when the outdoor unit fan 104b is rotated by the general wind, even if the outdoor unit fan motor 104c is driven for the operation of the outdoor unit 104, the outdoor unit fan motor 104c does not significantly affect the outdoor unit fan motor 104c. In this case, since driving is performed while overcoming this, a large load may occur and burnout of the outdoor unit fan motor 104c may occur, so that the controller 202 compares the rotational speed of the outdoor unit fan 104b with the reference rotational speed 303. When the rotation speed of the outdoor unit fan is greater than or equal to the reference rotation speed, the outdoor unit fan 104b maintains the operation standby state (304).

Here, maintaining the operation standby state of the outdoor unit fan 104b means ignoring the operation signal of the outdoor unit fan 104b and keeping the outdoor unit fan 104b in a stopped state.

Then, it is determined whether the predetermined time has elapsed (305), and when the predetermined time has elapsed, the rotation speed of the outdoor unit fan 104b is detected 306 again, and the rotation speed of the outdoor unit fan 104b is compared with the reference rotation speed ( If the rotation speed of the outdoor unit fan is greater than or equal to the reference rotation speed, it is determined whether the number of rotations of the outdoor unit fan 104b (step 307) has reached the set number of times (308).

When the number of times of comparing the outdoor unit fan 104b rotational speed reaches the set number of times in step 308, the outdoor unit fan 104b is kept in a stopped state (309).

If the number of rotations of the outdoor unit fan 104b does not reach the set number in step 308, the operation is repeatedly performed from step 305 until the number of rotations of the outdoor unit fan 104b compares to the set number of times.

On the other hand, when the rotation speed of the outdoor unit fan falls below the reference rotation speed in step 303 and step 307, the outdoor unit fan 104b is normally operated (310).

1A and 1B are diagrams illustrating a refrigerant cycle of an air conditioner according to an embodiment of the present invention.

2 is a control block diagram of an air conditioner according to an embodiment of the present invention.

3 is a control flowchart illustrating a process of controlling an outdoor unit fan of an air conditioner according to an embodiment of the present invention.

* Description of the symbols on the main parts of the face *

104 ... outdoor heat exchanger 104b ... outdoor unit fan

104c ... outdoor fan motor 202 ... control unit

204 ... Motor rotation direction detector 206 ... Power supply

Claims (4)

Determining whether an operation signal of the outdoor unit fan is input in an operation state of outdoor unit fan; Detecting a rotation speed of the outdoor unit fan when a driving signal of the outdoor unit fan is input; And comparing the detected rotational speed of the outdoor unit fan with a reference rotational speed and maintaining an operation standby state of the outdoor unit fan when the rotational speed of the outdoor unit fan is greater than or equal to the reference rotational speed. The method of claim 1, wherein the maintaining of the outdoor unit's fan in a standby state is performed. The outdoor unit fan control method of the air conditioner to ignore the operation signal of the outdoor unit fan and to maintain the outdoor unit fan in a stopped state. The method of claim 2, And detecting a rotation speed of the outdoor unit fan which is changed while maintaining the operation standby state of the outdoor unit fan. The method of claim 3, wherein And operating the outdoor unit fan when the detected rotational speed of the outdoor unit fan falls below the reference rotational speed.

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