KR20070063722A - Air-conditioning apparatus with ventilation operation and thereof method - Google Patents

Abstract

An air-conditioning apparatus with a ventilation operation and a method thereof is provided to exchange enough heat at a heat exchanger between indoor air and outdoor air. An air-conditioning apparatus with a ventilation operation includes a body(10) with a feeding channel(11) and a discharging channel(12) therein. The air-conditioning apparatus further includes a heat exchanger, a feeding air pressure sensor(17), a discharging air pressure sensor(18), an air controller, and a controller. The feeding air pressure sensor detects the pressure of incoming air at the feeding air path. The discharging air pressure sensor detects the pressure of discharging air at the discharging air path. The air controller controls an amount of air supplied through the path at the feeding air path or at the discharging air path. The controller controls the air controller according to the pressure of the incoming air and the discharging air measured by the feeding air pressure sensor and the discharging air pressure sensor, when an imbalance between the amount of the feeding air and the discharging air.

Description

Air conditioning device with ventilation function and control method thereof {Air-Conditioning Apparatus With Ventilation Operation And Thereof Method}

1 is a schematic configuration diagram of a general air conditioner having a ventilation function.

2 is a configuration diagram of an outdoor unit of an air conditioner having a ventilation function according to the present invention.

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

4 is a graph illustrating a process of controlling the speed of the exhaust fan by comparing the air supply air pressure and the exhaust air pressure during the ventilation operation according to the present invention.

5 is a control diagram illustrating a process of calculating a target fan speed according to the fan speed change amount and the current fan speed of the exhaust fan according to the present invention.

6 is a flowchart illustrating a control method of the air conditioner according to the present invention.

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

10: outdoor unit main body

20: electric heat exchanger

24: control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner and a control method thereof for preventing the efficiency of the total heat exchanger from being lowered due to changes in the air supply air flow rate and the exhaust air flow amount caused by external factors.

As shown in FIG. 1, a general air conditioner having a ventilation function connects an air duct 3 between the indoor unit 1 and the outdoor unit 2. One of the air ducts 3 is an exhaust passage for exhausting indoor air to the outside, and the other of the air ducts 3 is an air supply passage for supplying external air to the interior.

The outdoor unit includes an electric heat exchanger for exchanging outdoor air and indoor air, an air supply fan installed in the middle of the air supply flow path for sucking and supplying external air, and an exhaust air installed in the middle of the exhaust flow path for sucking the indoor air and discharging it to the outside. With a fan.

In the case of a ventilation operation, the air supply fan and the exhaust fan are simultaneously driven in order to exhaust contaminated indoor air and supply fresh outdoor air.

The amount of air supplied to the air during the ventilation operation is determined by the speed of the air supply fan, and the amount of exhaust air discharged to the outside is determined by the speed of the exhaust fan. When the difference between the air supply air flow rate and the exhaust air flow rate is within a certain range, heat exchange in the total heat exchanger is sufficiently performed, and thus the room temperature can be properly maintained.

However, even when the air supply fan and the exhaust fan are simultaneously driven according to the set conditions corresponding to the ventilation operation, the amount of the air supply air amount or the exhaust air amount may be excessively changed by external factors according to the environmental conditions.

For example, when the exhaust fan is driven at a speed lower than the set speed due to external air pressure or strong wind outside during driving of the exhaust fan installed in the outdoor unit, the exhaust air volume is significantly reduced. Accordingly, the air supply air volume is relatively larger than the exhaust air discharged to the outside. At this time, if the air supply air volume is excessively large, heat exchange between the indoor air discharged from the total heat exchanger and the outdoor air sucked into the indoor is insufficient.

Therefore, when the room temperature is higher than the outside temperature, the outside cold air can be supplied into the room without being sufficiently heat exchanged with the room air. Also, when the outside temperature is higher than the room temperature, the outside hot air is sufficiently connected with the room air. Since it can be supplied to the room without heat exchange, not only is it difficult to maintain the room temperature at the set temperature, but also causes a user's dissatisfaction due to a sudden change in the room temperature.

SUMMARY OF THE INVENTION An object of the present invention is to provide an air conditioner having a ventilation function and a control method thereof so as to balance the air supply and the exhaust air volume when an imbalance factor occurs during the ventilation operation.

Another object of the present invention is to provide an air conditioner having a ventilation function and a method of controlling the same so that an unbalance between an air supply air flow rate and an exhaust air flow rate can be prevented during a ventilation operation to prevent a sudden change in the room temperature.

According to an aspect of the present invention, there is provided an air conditioner having a ventilation function including an air supply flow path, an exhaust flow path, and an electrothermal heat exchanger provided at an intersection of the air supply flow path and the exhaust flow path. An air supply pressure sensor installed to detect the air supply pressure; An exhaust pressure sensor installed in the middle of the exhaust passage to sense exhaust pressure; Air volume adjusting means installed in the middle of the air supply passage or the exhaust passage to adjust the air volume supplied through the passage; And based on the air supply pressure and the exhaust pressure sensed by the air supply pressure sensor and the exhaust pressure sensor when an unbalance between the air supply air amount supplied to the room through the air supply flow path and the exhaust air amount discharged to the outside through the exhaust flow path occurs. It characterized in that it comprises a control unit for controlling the air flow rate adjusting means.

An air supply fan provided in the middle of the air supply flow path and an exhaust fan provided in the middle of the exhaust flow path are further provided, and at least one of the air supply fan and the exhaust fan is determined as the air volume adjusting means.

The control unit has a ventilation function for controlling the speed of at least one fan determined by the air flow rate adjusting means so as to balance the air supply air flow rate and the exhaust air flow rate.

The exhaust fan is defined as the air volume adjusting means.

Further comprising a fan speed sensor for detecting the speed of the exhaust fan, wherein the control unit according to the fan speed change amount calculated from the air supply pressure and the exhaust pressure and the fan speed detected by the fan speed sensor, The target fan speed is calculated, and the speed of the exhaust fan is controlled to follow the calculated target fan speed.

The control unit calculates the fan speed change amount Fs by the following expression (1).

Fs = (C * K1) + [(Cd-Pd) * K2] --- Equation (1)

Where Cd is (current air supply wind pressure-current exhaust wind pressure), Pd is (previous air supply wind pressure-previous exhaust wind pressure), and K1 and K2 are proportional constants.

And a storage unit for storing the wind pressure deviation obtained by subtracting the exhaust pressure from the air supply pressure.

In order to achieve the above object, the present invention provides a control method of an air conditioner having a ventilation function for exchanging heat exchanged between an outdoor air guided by an air supply passage and an indoor air guided by an exhaust passage in a heat exchanger. Determining whether there is an imbalance between the amount of air supply air supplied to the room through the air supply flow path and the amount of exhaust air discharged to the outside through the exhaust flow path; When an unbalance between the air supply air flow rate and the exhaust air flow rate occurs, the air flow rate adjusting means provided in the air supply flow path or the exhaust flow path may be controlled to balance the air supply air flow rate and the exhaust air flow amount.

The determination of the occurrence of the imbalance is determined by the difference between the air supply pressure of the air supply passage and the exhaust pressure of the exhaust passage.

When at least one of the air supply fan installed in the middle of the air supply flow path and the air exhaust fan installed in the middle of the exhaust flow path is determined by the air flow rate adjusting means, the speed of at least one fan determined by the air flow rate adjusting means is controlled to solve the imbalance. do.

The speed control of the fan calculates a target fan speed from the speed change amount of the fan calculated from the air supply pressure sensed by the air supply pressure sensor and the exhaust pressure sensed by the exhaust pressure sensor and the current fan speed of the fan, The speed of the fan is increased or decreased so as to follow the target fan speed calculated by the fan.

The speed change amount of the fan is periodically calculated and stored in the wind pressure deviation corresponding to the difference between the supply air pressure and the exhaust wind pressure, and is obtained from the current wind pressure deviation and the stored previous wind pressure deviation.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram of an outdoor unit of an air purifier having a ventilation function according to the present invention, and FIG. 3 is a control block diagram of the air conditioner according to the present invention.

As illustrated, the outdoor unit is provided such that an air supply passage 11 for guiding outdoor air to the inside of the main body 10 and an exhaust passage 12 for guiding indoor air to the outside are partitioned.

Here, the air supply passage 11 and the exhaust passage 12 are intersected with each other so that the outdoor air sucked into the indoor space and the indoor air discharged to the outside can exchange heat with each other, and the air supply passage 11 and the exhaust passage ( At the intersection where 12) intersects, a heat exchanger 20 is arranged. The total heat exchanger includes a passage through which air sucked in and a passage through which discharged air passes so that air passing through the air supply passage 11 and air passing through the exhaust passage 12 do not mix with each other. They are stacked alternately at right angles to each other.

An air supply fan 13a and an exhaust fan 13b for generating a blowing force are disposed in the air supply passage 11 and the exhaust passage 12, respectively, and the outdoor air is driven by the operation of the air supply fan 13a and the exhaust fan 13b. And indoor air flow along the air supply passage 11 and the exhaust passage 12, respectively, and thus ventilation is achieved.

On one side of the main body 10 is formed an indoor inlet 12a through which indoor air is sucked and an indoor outlet 11b through which outdoor air is discharged into the room. The other side of the main body 10 includes an outdoor inlet 11a through which outdoor air is sucked. An outdoor outlet 12b through which indoor air is discharged to the outside is formed. Here, the outdoor suction port 11a and the indoor discharge port 11b are connected by the air supply passage 11, and the indoor suction port 12a and the outdoor discharge port 12b are formed to be connected to the exhaust passage 12.

A duct is connected to each of the inlets 11a and 12a and the outlets 11b and 12b. The indoor suction duct 15a connected to the indoor suction port 12a and the indoor discharge duct 14b connected to the indoor outlet 11b are not shown. Connected to the indoor unit. The outdoor suction duct 14a connected to the outdoor suction port 11a and the outdoor discharge duct 15b connected to the outdoor discharge port 12b are exposed to the outside.

The air supply pressure sensor 17 and the exhaust pressure sensor 18 are installed inside the main body. The air supply pressure sensor 17 is located between the indoor outlet 11b and the heat exchanger 20 to detect the pressure of the air blown by the air supply fan 13a, and the exhaust pressure sensor 18 supplies the air supply pressure sensor 17. ) And the indoor suction port 12a and the total heat exchanger 20 detect the pressure of the air sucked by the exhaust fan 13b.

In the embodiment, each pressure sensor (17, 18) is described as being installed inside the main body, but the installation position of each sensor (17, 18) is not necessarily limited to this, the pressure of the air supplied through the air supply flow path and the exhaust flow path It can also be installed in another location where the pressure of the air discharged through it can be measured.

Referring to FIG. 3, the air conditioner according to the present invention includes a control unit 24 for controlling the overall driving operation of the device.

The control unit 24 receives a user's command for setting the operation mode, air volume, and temperature through the input unit 230, receives the room temperature through the room temperature sensor 21, and pollutes the room through the pollution detection sensor 22. The pollution detection sensor 22 refers to a sensor for detecting a concentration of carbon dioxide contained in indoor air or a sensor for detecting a concentration of a gas harmful to a human body.

The controller 24 determines whether the ventilation operation is necessary based on the contamination state of the indoor air through the pollution detection sensor 22.

If it is determined that the ventilation operation is necessary, the control unit 24 applies a control command to the fan drive unit 26. Accordingly, the fan driver 26 outputs a fan driving signal for driving at the set speed to drive the air supply fan 13a and the exhaust fan 13b. Here, the set speed of the air supply fan 13a and the set speed of the exhaust fan 13b are set in advance and stored in the storage unit 25. At this time, the set speed of the air supply fan and the set speed of the exhaust fan are set in consideration of the air supply air amount and the exhaust air amount. That is, the set speed of the supply fan and the set speed of the exhaust fan are set to balance the amount of air supplied to the air during ventilation operation with the amount of air exhausted to the outside.

The fan speed sensor 16 detects the speed of the exhaust fan 13b and provides it to the controller 24. In addition, the air supply pressure sensor 17 and the exhaust pressure sensor 18 detect the air supply side pressure and the exhaust side pressure and provide them to the controller 24.

The wind pressure of the air supply passage and the air pressure of the exhaust passage are compared to determine whether control of the fan speed for controlling the air volume is necessary. For example, if the speed of the exhaust fan decreases due to external factors during the ventilation operation, the amount of air discharged to the outside decreases and thus the amount of air supplied to the air is relatively high. The speed of the exhaust fan or the supply fan is controlled to balance the supply air flow rate with the exhaust air flow rate.

According to the embodiment, it is determined whether the air supply air flow rate and the exhaust air flow amount are balanced on the basis of the air supply pressure detected by the air supply pressure sensor 17 and the exhaust pressure detected by the exhaust pressure sensor 18. When it is recognized, the speed of the exhaust fan 13b is increased or decreased to balance the air supply air flow rate with the exhaust air flow. However, the air volume control is not limited to controlling only the speed of the exhaust fan. To control the speed of the supply fan or the speed of both the supply fan and exhaust fan can be applied.

Referring to FIG. 4, in the first period t1 during the ventilation operation, when the exhaust fan speed decreases due to external air pressure or strong external wind, the exhaust pressure P2 is greater than the air supply pressure P1. If the predetermined range is lower than the predetermined range, the control unit 24 greatly increases the speed of the exhaust fan 13b and then decreases the speed step by step to achieve a balance between the air supply air flow rate and the exhaust air flow amount.

In the second period t2, when the exhaust fan speed increases due to external air pressure or strong external wind, and the exhaust pressure P2 is larger than the air supply pressure P1 by a predetermined range or more, the controller 24 The speed of the exhaust fan 13b is greatly reduced, and then the speed is increased step by step to achieve a balance between the air supply air flow rate and the exhaust air flow amount.

In the third time t3, when the set speed of the air supply fan is reset by the user setting the set air volume from "strong wind" to "weak wind", the air supply pressure P1 is in a predetermined range than the exhaust pressure P2. When the abnormality is low, the control unit 24 greatly reduces the speed of the exhaust fan 13b and subsequently increases the speed in order to balance the air supply air flow rate with the exhaust air flow amount.

In the fourth time t4, when the set speed of the air supply fan is reset as the set air volume is set from "weak" to "strong wind" by the user, the air supply pressure P1 is in a predetermined range than the exhaust pressure P1. If the abnormality is high, the control unit 24 greatly increases the speed of the exhaust fan 13b and then decreases the speed step by step to achieve a balance between the air supply air flow rate and the exhaust air flow amount.

In order to balance the supply air flow rate with the exhaust air flow rate, the controller 24 calculates a target fan speed of the exhaust fan according to the difference between the supply air pressure and the exhaust pressure, and controls the speed of the exhaust fan to follow the calculated target fan speed. Apply.

The fan speed change amount Fs for calculating the target fan speed of the exhaust fan can be expressed as follows.

Fs = (C * K1) + [(Cd-Pd) * K2] --- Equation (1)

Where Cd is (current air supply wind pressure-current exhaust wind pressure), Pd is (previous air supply wind pressure-previous exhaust wind pressure), and K1 and K2 are proportional constants 5 and 2, respectively.

Referring to FIG. 5, the subtractor 24a subtracts the previous wind pressure deviation Pd from the current wind pressure deviation Cd, and the first multiplier 24b multiplies the output value of the subtractor 24a by "2". The double multiplier 24c multiplies the current wind pressure deviation Cd by " 5 ", the first adder 24d adds the outputs of the first multiplier 24b and the second multiplier 24c, and the second adder ( 24e) outputs a target fan speed Ft by adding the output of the first adder 24c, that is, the fan speed change amount Fs and the current fan speed detected by the fan speed sensor 16. In order to calculate the target fan speed as described above, the control unit 24 periodically stores the wind pressure deviation calculated by the air supply pressure sensor and the exhaust pressure sensor in the storage unit 24, and calculates the previous wind pressure deviation when calculating the next target fan speed. To be provided.

The control unit 24 outputs a control command for driving the exhaust fan 13b to the fan drive unit 26 in accordance with the target fan speed. The fan driver 26 applies a driving signal to the exhaust fan 13b to increase or decrease the exhaust fan speed according to a control command.

The air volume control repeats the operation of increasing or decreasing the speed of the exhaust fan every 20 seconds, for example, set by the controller 24, and continues until the supply air volume and the exhaust air volume are balanced.

Hereinafter, a control method of an air device having a ventilation function according to the present invention will be described.

When the power is supplied, the controller 24 determines whether the operation mode is a ventilation operation (30). In the case of the ventilation operation, the control unit 24 drives the air supply fan 13a and the exhaust fan 13b at the set speed (32).

Accordingly, the air passing through the air supply passage 11 and the air passing through the exhaust passage 12 are heat-exchanged to the heat exchanger 20, and the outdoor air heat-exchanged with the indoor air is stored in the indoor store via the air supply passage 11. The indoor air supplied and heat-exchanged with the outdoor air is discharged to the outside through the exhaust passage 12.

During the ventilation operation, the air supply pressure sensor 17 and the exhaust pressure sensor 18 detect the air supply pressure and the exhaust pressure, respectively, and provide them to the control unit 24, and the control unit 24 supplies the air supply pressure sensor 17 and the exhaust pressure sensor. The magnitudes of the supply air pressure and the exhaust air pressure are compared according to the air supply pressure and the exhaust pressure sensed through (18), and accordingly, the exhaust air pressure decreases by more than a predetermined range than the air supply air pressure to determine whether an imbalance occurs (36-1). As a result of the determination, when the exhaust wind pressure decreases by more than a predetermined range than the air supply wind pressure, the current wind pressure deviation Cd is calculated, and the current wind pressure deviation is stored in the storage unit 25 (38-1). The control unit 24 calculates the fan speed change amount Fs according to FIG. 5 using the current wind pressure deviation Cd and the previous wind pressure deviation Pd stored in the storage unit 25, and then the fan speed sensor 16. The target fan speed Ft is calculated by adding the current fan speed Fc detected through S40-1. The control unit 24 applies a control command for increasing the exhaust fan speed to the fan drive unit 26 according to the calculated target fan speed Ft, thereby greatly increasing the speed of the exhaust fan 13b, and then Reduce speed (42-1). At this time, it is determined whether the set time has elapsed (44-1). If the set time has not elapsed, the process proceeds to operation 42-1. As a result of the determination of operation 44-1, the process returns to the start step.

As a result of the determination of operation 36-1, when the exhaust wind pressure does not decrease by more than a predetermined range than the supply air pressure, the controller 24 determines whether an unbalance has occurred because the exhaust wind pressure increases by more than a predetermined range than the supply air pressure (36-2). As a result of the determination in operation 36-2, when the exhaust wind pressure does not increase by more than a predetermined range than the supply wind pressure, it is determined whether an unbalance has occurred because the supply air pressure decreases by more than a predetermined range than the exhaust wind pressure (36-3). As a result of the determination of operation 36-3, if the air supply wind pressure does not decrease by more than a predetermined range than the exhaust wind pressure, it is determined whether the air supply wind pressure increases by more than a certain range than the exhaust wind pressure to cause an imbalance (36-4).

If the air supply air pressure does not increase by more than a certain range than the exhaust air pressure as a result of the judgment of operation 36-4, that is, the air supply air pressure and the exhaust air pressure are equal to each other so that the air supply air volume and the exhaust air flow are in a balanced state, so that the operation is continued for ventilation operation. Proceed to 32.

As a result of the determination in operation 36-2, when the exhaust wind pressure increases by more than a predetermined range than the air supply wind pressure, an unbalance occurs, the controller 24 stores the current wind pressure deviation in the storage unit 25 (38-2), and the current wind pressure deviation ( The target fan speed Ft is calculated according to FIG. 5 using Cd) and the previous wind pressure deviation Pd stored in the storage 25 (40-2). The control unit 24 greatly reduces the speed of the exhaust fan 13b according to the calculated target fan speed Ft, and then increases the speed step by step 42-2. It is determined whether the set time has elapsed while controlling the speed of the exhaust fan (44-2). If the set time has not elapsed as a result of the determination, the operation proceeds to operation 42-2 and returns to the start step if the set time has elapsed.

As a result of the determination of operation 36-3, when the air supply wind pressure decreases by a predetermined range or more than the exhaust wind pressure, an unbalance occurs, the controller 24 stores the current wind pressure deviation in the storage unit 25 (38-3), and the current wind pressure deviation. The target fan speed Ft is calculated according to FIG. 5 using the Cd and the previous wind pressure deviation Pd stored in the storage 25 (40-3). The control unit 24 greatly reduces the speed of the exhaust fan 13b according to the calculated target fan speed Ft, and then increases the speed step by step (42-3). It is determined whether the set time has elapsed while controlling the speed of the exhaust fan (44-3). If the set time has not elapsed as a result of the determination, the operation proceeds to operation 42-3.

As a result of the determination in operation 36-4, when the air supply air pressure increases by more than a predetermined range than the exhaust air pressure, an unbalance occurs, the controller 24 stores the current wind pressure deviation in the storage unit 25 (38-4), and the current wind pressure deviation ( The target fan speed Ft is calculated according to FIG. 5 using Cd) and the previous wind pressure deviation Pd stored in the storage 25 (40-4). The controller 24 greatly increases the speed of the exhaust fan 13b according to the calculated target fan speed Ft and then decreases the speed step by step 42-4. It is determined whether the set time has elapsed while controlling the speed of the exhaust fan (44-4). If the set time has not elapsed as a result of the determination, the operation proceeds to operation 42-4 and returns to the start step if the set time has elapsed.

According to the above-described embodiments of the present invention, the air supply amount and the exhaust air amount can be balanced by controlling the speed of the exhaust fan according to the result of comparing the supply air pressure with the exhaust pressure in the ventilation operation. As a result, even if an unbalanced supply air flow rate and exhaust air flow amount are caused by external factors, this state is not maintained. Thus, it is possible to balance the air supply air flow rate and the exhaust air flow rate in a short time. Since the outdoor air supplied to the room through the flow path may be sufficiently heat exchanged in the total heat exchanger, it is possible to prevent the user's dissatisfaction due to a sudden change in the room temperature during the ventilation operation.

Claims (12)

In the air conditioner provided with the ventilation function provided with an air supply flow path, an exhaust flow path, and the electrothermal heat exchanger provided in the intersection of the air supply flow path and the said exhaust flow path, An air supply pressure sensor installed in the middle of the air supply flow path to sense the air supply pressure; An exhaust pressure sensor installed in the middle of the exhaust passage to sense exhaust pressure; Air volume adjusting means installed in the middle of the air supply passage or the exhaust passage to adjust the air volume supplied through the passage; And based on the air supply pressure and the exhaust pressure sensed by the air supply pressure sensor and the exhaust pressure sensor when an unbalance between the air supply air amount supplied to the room through the air supply flow path and the exhaust air amount discharged to the outside through the exhaust flow path occurs. Air conditioning apparatus having a ventilation function, characterized in that it comprises a control unit for controlling the air flow rate adjusting means. The air supply fan according to claim 1, further comprising an air supply fan installed in the middle of the air supply flow path and an exhaust fan provided in the middle of the exhaust flow path, wherein at least one of the air supply fan and the exhaust fan is defined as the air flow rate adjusting means. An air conditioner with a ventilation function. The ventilation function according to claim 2, wherein the control unit controls a speed of at least one fan determined by the air flow rate adjusting means so that the air supply air flow rate and the exhaust air flow rate are balanced. Equipped air conditioner. The air conditioner having a ventilation function according to claim 2, wherein the exhaust fan is defined as the air volume adjusting means. The fan speed sensor according to claim 4, further comprising a fan speed sensor for detecting the speed of the exhaust fan, wherein the control unit is a fan speed change amount calculated from the air supply pressure and the exhaust pressure and the fan speed detected by the fan speed sensor. And calculating the target fan speed of the exhaust fan and controlling the speed of the exhaust fan so as to follow the calculated target fan speed. The air conditioner with a ventilation function according to claim 4, wherein the control unit calculates the fan speed change amount Fs by the following expression (1). Fs = (C * K1) + [(Cd-Pd) * K2] --- Equation (1) Where Cd is (current air supply wind pressure-current exhaust wind pressure), Pd is (previous air supply wind pressure-previous exhaust wind pressure), and K1 and K2 are proportional constants. The air conditioner according to claim 6, further comprising a storage unit for storing the wind pressure deviation obtained by subtracting the exhaust pressure from the air supply pressure. A control method of an air conditioner having a ventilation function for exchanging heat exchanged between an outdoor air guided by an air supply flow path and an indoor air guided by an exhaust flow path in a heat exchanger, Determining whether there is an imbalance between the amount of air supply air supplied to the room through the air supply flow path and the amount of exhaust air discharged to the outside through the exhaust path; The air having a ventilation function, characterized in that the supply air flow rate and the exhaust air flow volume can be balanced by controlling the air flow rate adjusting means provided in the air supply flow path or the exhaust flow path when an unbalance between the air supply air flow rate and the exhaust air flow rate occurs. Control method of conditioner. The control method according to claim 8, wherein the determination of the occurrence of the imbalance is determined by a difference between the supply pressure of the air supply flow path and the exhaust pressure of the exhaust flow path. The air flow control device according to claim 8, wherein at least one of an air supply fan installed in the middle of the air supply flow path and an air exhaust fan installed in the middle of the exhaust flow path is determined by the air flow control means to at least one of the air flow control means for solving the imbalance. Control method of an air conditioner with a ventilation function, characterized in that for controlling the speed of the fan. The fan speed control method of claim 10, wherein the speed control of the fan is based on a change in the speed of the fan calculated from the air supply pressure sensed by the air supply pressure sensor and the exhaust pressure sensed by the exhaust pressure sensor and a current fan speed of the fan. And controlling the fan speed and increasing or decreasing the speed of the fan so as to follow the target fan speed calculated by the fan. 12. The ventilation function according to claim 11, wherein the speed change amount of the fan is periodically calculated and stored in the wind pressure deviation corresponding to the difference between the supply air pressure and the exhaust wind pressure, and is obtained from the current wind pressure deviation and the stored previous wind pressure deviation. Control method of the equipped air conditioner.

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