KR20030023045A - Fan control method for air conditioner - Google Patents

Abstract

PURPOSE: A method for controlling an outdoor fan of an air conditioner is provided to improve efficiency of heating operation. CONSTITUTION: A method includes the steps of: a first step(200) detecting RPM of an outdoor fan motor on initial stage of heating operation and storing as reference; a second step(203,206) measuring current RPM of the outdoor fan motor after executing heating operation for fixed time; a third step(209,212,218) comparing the current RPM with the reference to determining frosting of an outdoor unit; and a fourth step(215,221,224,227,230,233) controlling RPM of the outdoor fan motor to increase when the outdoor unit is determined to be frosted.

Description

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

The present invention relates to an outdoor fan control method of an air conditioner, and more particularly, to an outdoor fan control method of an air conditioner that can prevent the deterioration of heating capacity by variably controlling the speed of an outdoor fan according to an idea of an outdoor unit. It is about.

An air conditioner is a device for maintaining indoor air in a state most suitable for use and purpose. For example, in summer, the room is adjusted to cool air condition, and in winter, the room is controlled to warm heating condition. In addition, the air conditioner controls the humidity in the room, and controls the air in the room to a comfortable clean state.

In this way, if one device is used as a heating device in winter and a cooling device in summer, the heating cycle is implemented through the reverse cycle of the cooling operation, and the cooling cycle is realized through the reverse cycle of the heating operation. Done.

1 shows a refrigeration cycle of a general air conditioner.

As shown in FIG. 1, a general air conditioner includes the indoor unit 50 equipped with the heat exchanger 10 which blows warm air into a room at the time of a heating operation. In addition, the air conditioner is a compressor 20 for generating a high-temperature, high-pressure refrigerant, a heat exchanger 30 for circulating the refrigerant generated from the compressor 20 to discharge the cold wind to the outside and the four sides for the switching of the heating and cooling cycle The outdoor unit 60 comprised by the side 40 is included.

And the air conditioner is provided with a fan for establishing an air flow in order to supplement the heat exchange capacity to the indoor unit 15 and the outdoor unit 60. That is, an indoor fan 15 is provided in the heat exchanger 10 on the indoor unit 15 side, and an outdoor fan 35 is provided in the heat exchanger 30 on the outdoor unit 60 side. Such a fan serves as a catalyst for promoting heat exchange between the refrigerant flowing through the heat exchanger and the air.

An air conditioner of such a configuration controls the four sides 40 under the control of a controller (not shown) to form a heating operation cycle. At this time, while the refrigerant of the high temperature and high pressure generated from the compressor 20 is circulated, the heat exchanger 10 of the indoor unit 50 discharges warm air, and the heat exchanger 30 of the outdoor unit 60 discharges cold air.

In this configuration, when the conventional air conditioner performs a heating operation, when the outdoor environment is below the freezing point temperature and there is a certain amount of moisture, the dew condensation forms on the outdoor heat exchanger 30 exposed to the outdoor environment. Progress. Therefore, when the air conditioner continues the heating operation, there is a problem that the heat exchange surface of the outdoor heat exchanger 30 is frozen. This freezing lowers the temperature of the blown air through the heat exchanger 10 in the room side, thereby lowering the function of heating. Therefore, it is necessary to perform the defrosting operation at regular intervals in order to remove the freezing and to continue the heating operation even in the outdoor environment below the freezing point.

Therefore, the air conditioner controls the four sides 40 for defrosting operation under the control of a controller (not shown) to form a cooling operation cycle. At this time, as the refrigerant of high temperature and high pressure generated from the compressor 20 is circulated, the heat exchanger 10 of the indoor unit 50 discharges cold air, and the heat exchanger 30 of the outdoor unit 60 discharges warm air.

As described above, the defrosting operation means that the cooling operation is performed for a predetermined time in order to thaw ice that covers the heat exchange surface of the outdoor unit 60 in the middle of the heating operation. While the cooling operation is performed, the heat exchanger 30 of the outdoor unit 60 discharges warm wind, and the freezing of the heat exchanger surface is thawed by heat generated at this time.

On the other hand, when performing the heating operation in the conventional air conditioner, the control of the outdoor fan 35 is based on the input voltage input into the product.

2 is an operation flowchart for outdoor fan control in a conventional air conditioner.

In the conventional air conditioner, the input voltage is checked at the initial stage of heating operation (step 100), and the speed of the outdoor fan 35 is adjusted to balance the cycle of the whole product according to the input voltage.

That is, as illustrated, when the input voltage is lower than the predetermined voltage V1, the outdoor fan 35 is controlled by strong wind for cycle balance (step 110). When the input voltage is higher than the predetermined voltage V1, the outdoor fan 35 is controlled by light wind (step 120).

Therefore, in the conventional air conditioner, the control of the outdoor fan is merely controlled according to the input voltage, and is performed regardless of the state of the current in the heat exchanger 30 of the outdoor unit 60.

However, since the temperature of the heat exchanger 30 of the outdoor unit 60 is low in the state in which the heating operation is performed for a predetermined time or more, moisture contained in the air is solidified when the air is inhaled and implanted in the heat exchanger. When it lands on the heat exchanger 30 of the outdoor unit 60, the amount of air to be sucked is reduced because the air vent of the air to be sucked is blocked. Therefore, the heat exchange is not performed smoothly, causing a decrease in heating capacity, and the pipe temperature of the outdoor heat exchanger 30 is significantly lowered due to the above concept.

Therefore, when the implantation is in progress in the heat exchanger 30 of the outdoor unit 60, it is necessary to increase the rotational speed of the outdoor fan 35 to increase the amount of air sucked in, so that heat exchange can be performed smoothly.

However, the conventional air conditioner does not have a control process for increasing the rotational speed of the outdoor fan 35 according to the degree of progression of the outdoor unit heat exchanger 30. It only performed defrosting operation based on the outdoor piping temperature. Therefore, while frequent defrosting occurs, the heating operation cannot be continuously provided to the user, causing inconvenience to the user and reducing the competitiveness of the product.

Accordingly, an object of the present invention is to provide an outdoor fan control method of an air conditioner that can improve heat exchange capability by variably controlling the rotational speed of an outdoor fan according to an idea of an outdoor unit.

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

2 is an operation flowchart for outdoor fan control of an air conditioner according to the prior art;

3 is a control block diagram of an air conditioner according to the present invention;

4 is an operation flowchart for outdoor fan control of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

10,30: heat exchanger 20: compressor

40: four sides 50: indoor unit

60: outdoor unit 71: time coefficient

73: speed detection unit of the outdoor fan motor 75: outdoor piping temperature detection unit

77 memory 79 control unit

81: four sides switching unit 83: outdoor fan drive unit

85: compressor drive unit

An outdoor fan control method of an air conditioner according to the present invention for achieving the above object comprises: a first step of detecting a rotational speed of an outdoor fan motor at an initial stage of heating operation and storing it as a reference value; A second step of measuring a rotational speed of a current outdoor fan motor after performing a heating operation for a predetermined time; A third step of determining an idea of an outdoor unit by comparing the measured current rotation speed with a reference value; When it is determined that the outdoor unit is implanted in the third step, it comprises a fourth step of controlling the rotational speed of the outdoor fan motor.

The increase in the rotational speed of the outdoor fan motor of the fourth step of the present invention is characterized in that it is controlled within a set maximum rotational speed range.

The determination of the concept of the outdoor unit of the third stage of the present invention and the increase in the rotational speed of the outdoor fan motor of the fourth stage are classified and controlled in various ranges that are set.

Hereinafter, an air conditioner according to the present invention will be described with reference to the accompanying drawings.

3 is a control block diagram for controlling the heating operation in the air conditioner according to the present invention. And the configuration of the refrigeration cycle of the air conditioner in the description of the present invention will be described with reference to FIG.

A typical refrigeration cycle, as shown in Figure 1, the components from the compressor 20, the outdoor heat exchanger 30, the expansion device 25, the indoor heat exchanger 10 and the indoor heat exchanger (10). It is composed of a refrigerant connecting pipe connected to the indoor heat exchanger 10 again via both. That is, the refrigerant flowing through the refrigerant connection pipes passing through the above components changes state and absorbs or releases heat contained in the indoor air. In this operation, the temperature of the indoor air is increased or decreased.

From such a configuration, the air conditioner of the present invention forms a heating operation cycle by controlling the four sides 40 under the control of the control unit 79 to be described later. At this time, while the refrigerant of the high temperature and high pressure generated from the compressor 20 is circulated, the heat exchanger 10 of the indoor unit 50 discharges warm air, and the heat exchanger 30 of the outdoor unit 60 discharges cold air.

In addition, the air conditioner of the present invention controls the four sides 40 under the control of the control unit 79 to form a cooling operation cycle. At this time, while the refrigerant of the high temperature and high pressure generated from the compressor 20 is circulated, the heat exchanger 10 of the indoor unit 50 discharges cold air, and the heat exchanger 30 of the outdoor unit 60 discharges the warm air. The cooling operation cycle is driven during the defrosting operation.

And the air conditioner of the present invention is provided with a fan for establishing an air flow in order to supplement the heat exchange capacity to the indoor unit 15 and the outdoor unit 60. That is, an indoor fan 15 is provided in the heat exchanger 10 on the indoor unit 15 side, and an outdoor fan 35 is provided in the heat exchanger 30 on the outdoor unit 60 side. Such a fan serves as a catalyst for promoting heat exchange between the refrigerant flowing through the heat exchanger and the air.

By controlling the refrigeration cycle of such a configuration, the heating operation can be performed or the defrosting operation can be controlled by the control unit 79 shown in FIG.

The control unit 79 recognizes the heating operation mode or the cooling operation mode according to the user selection, and controls the driving of the refrigeration cycle according to the operation mode selected by the user. The cooling and heating mode switching of the refrigerating cycle according to the operation mode is made by the four-sided switching unit 81 to drive the switching of the four sides 40 under the control of the control unit 79.

In addition, the compressor 20 is driven by the compressor driver 85 under the control of the controller 79. The outdoor fan 35 of the outdoor unit 60 is also made by the outdoor fan driver 83 under the control of the controller 79.

In addition, the present invention includes a configuration for detecting the rotational speed (RPM) of the outdoor fan 35 in order to detect the idea of the outdoor unit 60 heat exchanger (30). That is, when the outdoor unit heat exchanger 30 is implanted and the heat exchanger is blocked, a difference in the amount of intake wind occurs, and the rotation speed of the motor driving the outdoor fan 35 is automatically changed by the amount of wind. I'm thinking about becoming.

In other words, when the heat exchanger is blocked by the formed castle, the air volume of the air circulating through the heat exchanger is reduced while the pressure applied to the rotary blades of the outdoor fan 35 is reduced. For this reason, as the load on the motor of the outdoor fan 35 becomes small, the RPM of the motor is automatically raised. Therefore, when the outdoor fan 35 that is variably controlled exceeds a predetermined value than the rotation RPM set, it is possible to determine that the heat exchanger is blocked due to the conception.

Therefore, by detecting the rotational speed of the motor for driving the rotation of the outdoor fan 35, it is determined whether the outdoor unit is implanted. Therefore, the present invention includes a speed detector 13 for detecting the speed of the outdoor fan (35) motor. The speed detector 13 is configured to receive a speed signal of the outdoor fan from a speed sensor (for example, a photo encoder can be used) mounted on the motor shaft of the outdoor fan 35 to detect the rotational speed. It is done.

In addition, the present invention includes an outdoor pipe temperature detection unit 75 for detecting the outdoor unit pipe temperature. In addition, the air conditioner of the present invention, the time counting unit 71 for counting the time, the set reference value {for example, the rotational speed of the outdoor fan 35 in the normal state in which the outdoor unit heat exchanger 30 is not implanted (RPM1)} and a memory 77 that stores necessary data for controlling other heating and defrosting operations.

Next, an operation process of controlling the outdoor fan of the air conditioner according to the present invention having the above configuration will be described.

4 is an operation flowchart for outdoor fan control of the air conditioner according to the present invention.

When the heating operation mode is selected by the user, the controller 79 drives the four-sided switching unit 81 to control the four sides 40 to switch to the heating operation cycle. The control unit 79 controls the compressor driving unit 85 to drive the compressor 20.

In the heating operation cycle configured as described above, the high temperature and high pressure refrigerant generated by the compressor 20 is circulated to the heat exchanger 10 side of the indoor unit 50. At this time, the heat exchanger 10 of the indoor unit 50 discharges warm wind into the room while generating heat exchange between the indoor air and the refrigerant.

The refrigerant passing through the heat exchanger 10 of the indoor unit 50 passes through the heat exchanger 30 of the outdoor unit 60 and is circulated to the compressor 20 again. At this time, the heat exchanger 30 of the outdoor unit 60 discharges cold wind to the outside.

As such, when the heating operation is performed, the outdoor fan driver 83 drives the outdoor fan 35 under the control of the controller 79. In addition, the indoor fan 15 is also driven.

At this time, the controller 79 detects the speed of the motor of the outdoor fan 35 through the speed detector 73 when a predetermined time elapses after the heating operation is performed. The speed of the outdoor fan 35 motor can be detected by attaching an encoder, which is a speed detection element, to the outdoor fan 35 motor. Alternatively, a photo coupler can be used.

The predetermined time is a time for waiting until the normal trajectory is reached after the heating operation is started. In other words, since they have different states at the beginning of driving due to the mechanical conditions of the components such as the outdoor fan and the compressor, and the surrounding environment, all of these components are normally driven, and the time delay state is maintained until the heating cycle enters the normal driving. To have.

Therefore, after the heating cycle reaches the normal driving state, the speed detected by the speed detecting unit 73 of the outdoor fan motor is input to the control unit 79 (step 200). The controller 79 stores the speed value of the outdoor fan 35 input in the 200 th step in the memory 77 and uses the reference value RPM1 for determining the concept of the heat exchanger 30 of the outdoor unit 60. .

On the other hand, when the heating operation is performed for a predetermined time or more (step 203), the heat exchanger 30 of the outdoor unit 60 is implanted.

This is because the temperature of the heat exchanger 30 of the outdoor unit 60 is low in the state in which the heating operation is performed, and the moisture contained in the air solidifies when the air is sucked in and is implanted in the heat exchanger. When the heat exchanger 30 of the outdoor unit 60 is implanted, the heat exchanger is blocked by the intake air, and thus the heat exchange is not performed smoothly, thereby lowering the heating capacity and lowering the pipe temperature of the outdoor heat exchanger.

Therefore, the controller 79 determines the idea of the state of the outdoor heat exchanger 30 in the state of performing the heating operation, and adjusts the rotational speed of the outdoor fan 35 to adjust the amount of intake air.

That is, the controller 79 detects the current rotational speed of the outdoor fan 35 in order to determine the state of implantation of the outdoor heat exchanger 30. At this time, the rotation speed is also made through a sensor mounted on the motor of the outdoor fan 35. That is, the control unit 79 reads the rotational speed RPM2 of the outdoor fan detected by the speed detection unit 73 of the outdoor fan motor (step 206).

Then, the rotational speed RPM2 of the outdoor fan read in step 206 is compared with the rotational speed RPM1 of the outdoor fan detected in the normal state (the state in which the outdoor heat exchanger is not implanted) detected in the 200th step. . Then, it is determined in which range the difference between the two values is included, and the rotation speed of the outdoor fan 35 is variably controlled.

Therefore, if the difference between the two values is smaller than the predetermined value X1, it is determined that the amount of current implantation is not close to the range of lowering the heat exchange capacity, and maintains the current rotation speed of the outdoor fan 35 (step 209).

However, when the difference between the two values is greater than or equal to the predetermined value X1 and less than the predetermined value X2 is in the range (step 212), the controller 79 increases the rotational speed of the outdoor fan 35 by one step from the current speed. (Step 215).

When the difference between the two values is greater than or equal to the predetermined value X2 and less than the predetermined value X3 is in the range (step 218), the controller 79 raises the rotational speed of the outdoor fan 35 by two steps from the current speed. (Step 221).

When the difference between the two values is larger than the predetermined value X3, the controller 79 raises the rotational speed of the outdoor fan 35 by three steps from the current speed (step 224).

By such control, the degree of conception currently advanced to the outdoor heat exchanger 30 is determined, and the rotation speed of the outdoor fan 35 is variably adjusted, so that the amount of air sucked is maintained in an appropriate state so that the heat exchange capacity is not lowered. do.

On the other hand, it is determined whether the rotational speed of the outdoor fan 35 adjusted in the step 215, step 221, step 224 is higher than the predetermined maximum rotational speed (RPM max) in the control state as described above. (Step 227).

That is, in the step 227, the rotation speed of the outdoor fan 35 is controlled to increase according to the concept of implantation, thereby preventing the deterioration of the heating capacity, but the outdoor fan is rotated within the maximum speed range in which the outdoor fan can rotate. It is intended to be controlled. If the rotational speed of the outdoor fan 35 is controlled to be higher than the maximum value, the outdoor fan may be damaged due to an overload, and the noise may be too great to cause consumer dissatisfaction.

The maximum rotational speed (RPM max) set in step 227 may be preset at the time of product shipment according to the product specification, noise standard, cycle temperature, and the like.

Accordingly, as a result of the determination of step 227, when the adjusted rotation speed of the outdoor fan is smaller than the preset maximum speed value, the operation of the outdoor fan is controlled at the adjusted rising speed (rising RPM) (step 230).

However, as a result of the determination of step 227, when the adjusted rotation speed of the outdoor fan 35 is greater than the preset maximum speed value, the operation of the outdoor fan 35 is controlled at the preset maximum speed RPM max. (Step 233).

In this way, by measuring the rotational speed of the motor of the outdoor fan 35 during the heating operation, if the rotational speed of the motor is automatically increased by a predetermined amount, it is determined that the conception has proceeded. Therefore, by increasing the rotation speed of the outdoor fan 35 by force to improve the outdoor heat exchange capacity. The heating operation is performed in such a state that the heating capacity is not degraded by this control, thereby providing continuous heating to the user.

As described above, the present invention determines the degree of implantation of the outdoor unit based on the change in the rotational speed of the outdoor fan while the amount of wind sucked into the outdoor unit heat exchanger is reduced. And it can be seen that the basic technical idea is to control the operation to continue without changing the heating capacity by increasing the rotational speed of the outdoor fan to secure sufficient heating capacity according to the degree of idea.

And within the scope of the technical idea of the present invention, of course, various modifications are possible to those skilled in the art.

Since the outdoor fan control method of the air conditioner according to the present invention described above, the degree of conception progressed based on the rotational speed of the outdoor fan motor, by increasing the rotational speed of the outdoor fan motor to improve the outdoor unit heat exchange capacity, Continuous heating can be provided to the user without degrading the heating capacity. Therefore, the number of defrosting operations can be reduced, thereby securing the reliability of the product and providing an effect of providing a sufficient heating effect to the user.

Claims (3)

A first step of detecting a rotational speed of the outdoor fan motor at an initial stage of heating operation and storing it as a reference value; A second step of measuring a rotational speed of a current outdoor fan motor after performing a heating operation for a predetermined time; A third step of determining an idea of an outdoor unit by comparing the measured current rotation speed with a reference value; And a fourth step of controlling the rotational speed of the outdoor fan motor when the concept of the outdoor unit is determined in the third step. The method of claim 1, The outdoor fan motor rotation speed increase of the fourth step is controlled within the maximum rotation speed range that is set, the outdoor fan control method of the air conditioner. The method according to claim 1 or 2, The determination of the concept of the outdoor unit of the third stage and the increase in the rotational speed of the outdoor fan motor of the fourth stage are controlled separately according to the various ranges that are set.