KR20190114466A - Air conditoiner and control method thereof - Google Patents

Abstract

According to an embodiment of the present invention, an air conditioner comprises: a housing having an air supply flow path through which outdoor air flows to the inside and an exhaust flow path through which indoor air is discharged to the outside; an air supply fan disposed in the housing and forcing an inflow of the outdoor air to generate air supply volume; an air discharge fan disposed in the housing and forcing an outflow of the indoor air to generate air discharge volume; a first sensor measuring concentration of a certain pollution component included in the outdoor air; a second sensor measuring concentration of a certain pollution component included in the indoor air; and a control unit varying output of the air supply fan and the air discharge fan in accordance with a difference value (P) of the measured concentration of the pollution component in the outdoor air and the measured concentration of the pollution component in the indoor air.

Description

Air conditioner and control method {Air conditoiner and control method

The present invention relates to an air conditioner and a control method thereof.

In general, an air conditioner is an air conditioner that sucks air in a room, exchanges heat with a low temperature or high temperature refrigerant, and then discharges it into a room to cool or heat the room, and an air purifier that purifies polluted air to fresh air. In addition, it may be classified into a ventilation device for exchanging indoor and outdoor air with each other.

Recently, air conditioners have been developed to have a complex function. For example, the air conditioning unit may be combined with the air conditioning unit, or the air conditioning unit may be combined with the ventilation unit.

On the other hand, the ventilator is a device for exchanging indoor air and outdoor air to discharge the pollutants and odors of the indoor air to the outside, and to introduce fresh air into the room.

The ventilator may include an air supply passage through which air with the seal flows into the room, an exhaust passage through which air in the room is discharged to the outside, and a fan assembly for forcing air flow.

In addition, the ventilation device, if there is a large difference in temperature and humidity between the indoor and outdoor, if the outside air is inflow as it is a factor that hinders the comfort of the room, by exchanging the temperature and humidity between the outdoor and indoor air to mitigate this effect It can be provided with a total heat exchange device. The total heat exchange device may provide a function of transferring the temperature and humidity of the discharged indoor air to the suctioned outside air.

Korean Patent Laid-Open Publication No. 10-2017-0079960, which is a prior art document, discloses an air conditioner that provides a function of ventilating an interior by exchanging indoor and outdoor air.

Prior art has disclosed that the air conditioner is provided with an air supply path through which outdoor air is introduced into the interior, a housing 10 through which an exhaust path through which indoor air is discharged to the outside is formed, and an air supply fan for forcing and introducing air ( A structure including 20) and an exhaust fan 30 is disclosed. Then, a structure including a regenerative heat exchange unit (50) for exchanging the temperature between outdoor air and indoor air is disclosed.

On the other hand, conventional air conditioners do not provide the function of comparing the quality of the outdoor air and indoor air. Therefore, the outdoor air may not respond to a situation in which the air quality is worse than that of the indoor air, thereby causing a problem of deterioration of the indoor air quality.

For example, in urban and polluted areas, the CO2 concentration of outdoor air may be higher than that of indoor air. Alternatively, when there are no occupants in the room, the CO2 concentration of the outdoor air may be higher than the CO2 concentration of the indoor air. At this time, if the air in the outside and the room is simply exchanged, the concentration of CO 2 in the room is rapidly increased, making it difficult to achieve a fundamentally known quality improvement.

It is an object of the present invention to provide an air conditioner and a control method thereof in which ventilation operation can be adjusted in response to a case where the quality of outdoor air is worse than that of indoor air.

SUMMARY OF THE INVENTION An object of the present invention is to provide an air conditioner and a control method thereof in which ventilation operation can be controlled in response to a degree of indoor air quality worse than that of outdoor air.

An air conditioner according to an embodiment of the present invention includes a housing in which an air supply path through which outdoor air is introduced into an interior, and an exhaust path through which indoor air is discharged to the outside; An air supply fan provided in the housing and configured to generate air supply air by forcing the inflow of outdoor air; An exhaust fan provided in the housing and configured to generate exhaust air volume by forcibly discharging indoor air; A first sensor measuring a concentration of a specific pollution component contained in outdoor air; A second sensor for measuring a concentration of a specific pollutant contained in indoor air; And a controller configured to vary the output of the air supply fan and the exhaust fan according to the measured difference value P between the concentration of the pollution component of the outdoor air and the concentration of the pollution component of the indoor air.

The first sensor may be provided on an air supply flow path of the housing.

And, the second sensor is characterized in that provided on the exhaust passage of the housing.

The first sensor and the second sensor may be carbon dioxide measuring sensors that measure the concentration of carbon dioxide.

And, when the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air, the control unit reduces the output of the exhaust fan than the reference output, reducing the exhaust air volume so that the exhaust air volume is less than the reference exhaust air volume Characterized in that the driving.

The control unit controls the output of the exhaust fan to be lower than the reference output but higher than zero so that the exhaust fan is not stopped during the exhaust air volume reduction operation.

The control unit controls the output of the air supply fan as a reference output during the exhaust air volume reduction operation, so that the air supply air amount is maintained at the reference air supply air amount.

The control unit may reduce the output of the exhaust fan stepwise according to a degree to which the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air.

The control unit may include the exhaust fan when the concentration of the pollution component of the indoor air is the same as the concentration of the pollution component of the outdoor air, or when the concentration of the pollution component of the indoor air is higher but lower than the preset reference value A1. By controlling the supercharge fan to a reference output, characterized in that for performing the rated air flow operation so that the exhaust air flow rate and the supply air flow is maintained at the reference exhaust air flow and the standard supply air flow.

And, when the concentration of the pollution component of the indoor air is higher than the concentration of the pollution component of the outdoor air by more than the reference value (A1), the control unit increases the output of the air supply fan than the reference output, the air supply air volume is the standard air Characterized in that the operation of increasing the air supply air flow rate to be larger than the air flow rate.

The controller may control the output of the exhaust fan to a reference output to maintain the exhaust air volume at the reference exhaust air volume during the air supply air volume increase operation.

The control unit may increase the output of the air supply fan step by step according to the degree of the pollution component of the indoor air is higher than the concentration of the pollution component of the outdoor air.

In the control method of the air conditioner according to the embodiment of the present invention, an air supply passage in which the outdoor air is introduced into the room, and an exhaust passage in which the indoor air is discharged to the outside is formed, forcing the inflow of outdoor air through the air supply passage A control method of an air conditioner having an air supply fan and an exhaust fan for forcibly discharging indoor air through an exhaust passage, the method comprising: a concentration measuring step of measuring concentrations of specific pollution components included in indoor air and outdoor air; Calculating a difference value P between the concentration of the pollution component of the indoor air and the concentration of the pollution component of the outdoor air by the controller; And a variable operation controlling the output of the air supply fan and the exhaust fan to vary the amount of supply air supplied to the room and the amount of exhaust air discharged to the outside according to the difference value P. do.

In the concentration measuring step, the carbon dioxide concentration of the indoor air and the outdoor air is measured.

And, in the variable operation step, the control unit, when the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air, reducing the output of the exhaust fan than the reference output to reduce the exhaust air volume less than the reference exhaust air volume It characterized in that to perform the exhaust air flow reducing operation to reduce.

The control unit controls the output of the exhaust fan to be lower than the reference output but higher than zero so that the exhaust fan is not stopped during the exhaust air volume reduction operation.

The control unit controls the output of the air supply fan as a reference output during the exhaust air volume reduction operation, so that the air supply air amount is maintained at the reference air supply air amount.

The control unit may reduce the output of the exhaust fan stepwise according to a degree to which the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air.

And, in the variable operation step, the control unit, the concentration of the pollution component of the indoor air is the same as the concentration of the pollution component of the outdoor air, or the concentration of the pollution component of the indoor air is higher but less than the predetermined reference value (A1). When the exhaust fan and the air supply fan are controlled to a high level, the air flow rate and the air supply air flow rate are controlled to maintain the reference air flow rate and the standard air supply air flow rate.

And, in the variable operation step, the control unit, when the concentration of the pollution component of the indoor air is higher than the reference value (A1) than the concentration of the pollution component of the outdoor air, by increasing the output of the air supply fan than the reference output For example, the air supply amount may be increased so that the air supply air amount becomes larger than the reference air supply air amount.

The controller may control the output of the exhaust fan to a reference output to maintain the exhaust air volume at the reference exhaust air volume during the air supply air volume increase operation.

The control unit may increase the output of the air supply fan step by step according to the degree of the pollution component of the indoor air is higher than the concentration of the pollution component of the outdoor air.

According to the air conditioner and the control method of the air conditioner according to an embodiment of the present invention, the following effects can be expected.

First, by measuring the concentration of the specific air component contained in the outdoor air and indoor air through the first sensor and the second sensor, the difference between the concentration of the air component of the outdoor air and the concentration of the air component of the indoor air measured by the control unit According to (P), the output of the air supply fan and the exhaust fan is variably controlled.

At this time, the control unit can determine whether the quality of the outdoor air is good compared to the quality of the indoor air by referring to the difference value (P), it is possible to determine the degree of good and bad.

Therefore, when the quality of indoor air is better than the quality of outdoor air, it is possible to adjust the amount of supply air and the amount of exhaust air in response to the degree of bad, good or bad, it is possible to maximize the effect of the ventilation operation.

Second, when the concentration of the air component of indoor air is lower than that of the outdoor air, that is, when the quality of indoor air is better than the quality of the outdoor air, the exhaust air volume is reduced by performing exhaust air volume reduction operation. The comfort of the room can be maintained for a long time.

For example, when the CO2 concentration of the indoor air is lower than the CO2 concentration of the outdoor air, by reducing the exhaust air volume, it is possible to prevent a sudden rise in the CO2 concentration of the indoor air and to maintain the comfort of the room for a long time.

Third, when the concentration of the air component of the indoor air is higher than the concentration of the air component of the outdoor air by more than a certain reference value (A1), when the quality of the indoor air is very poor than the quality of the outdoor air, by increasing the supply air flow rate, The outdoor air can be introduced quickly to improve the quality of the indoor air.

For example, when the CO 2 concentration of the indoor air is higher than a certain level higher than the CO 2 concentration of the outdoor air, by increasing the air supply air volume, it is possible to quickly lower the CO 2 concentration of the indoor air.

Fourth, when the concentration of the pollution component of the indoor air is the same as the concentration of the pollution component of the outdoor air, or when the concentration of the pollution component of the indoor air is higher but below the specific reference value (A1), by performing the rated air flow operation, It is possible to prevent problems such as noise increase due to the increase of the output of the air supply fan while providing the intended optimal ventilation performance.

1 is a view schematically showing the structure of an air conditioner according to an embodiment of the present invention.
2 is a configuration diagram showing the main configuration of an air conditioner according to an embodiment of the present invention.
3 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of the spirit of the present invention can be easily made by adding, changing, or deleting other elements. Can suggest.

1 is a view schematically showing the structure of an air conditioner according to an embodiment of the present invention, Figure 2 is a block diagram showing the main configuration of the air conditioner according to an embodiment of the present invention.

The air conditioner 1 according to the embodiment of the present invention may be an air conditioner having a function of exchanging indoor and outdoor air. For example, the air conditioner 1 may be a ventilation device, and may be a cooling or heating device or an air purifying device in which a function of the ventilation device is combined.

The air conditioner 1 according to the embodiment of the present invention may include a housing 10.

The housing 10 may form an outer shape of the air conditioner 1, and a space 11 may be formed therein.

An air flow path 20 through which air flows may be formed in the space 11. In addition, an air supply fan 30 and an exhaust fan 40 may be provided in the internal space 11 of the housing 10.

In the space 11, an air supply passage 21 through which outdoor air is supplied to the interior and an exhaust passage 22 through which indoor air is exhausted to the outside may be formed.

In the housing 10, an indoor air inlet 13, an indoor air outlet 14, an outdoor air outlet 15, and an outdoor air inlet 16 may be formed.

The indoor air inlet 13 and the indoor air outlet 14 may be formed to be opened in the housing 10. In addition, an inlet and an outlet of the exhaust passage 22 may be formed, respectively.

In detail, the indoor air inlet 13 may serve as an inlet of the exhaust passage 22. In addition, the indoor air outlet 14 may serve as an outlet of the exhaust passage 22.

Indoor air may be sucked into the exhaust passage 22 through the indoor air inlet 13. In addition, indoor air may be discharged to the outside through the indoor air outlet 14.

The outdoor air outlet 15 and the outdoor air inlet 16 may be formed to be opened in the housing 10. In addition, the inlet and the outlet of the air supply passage 21 may be formed, respectively.

In detail, the outdoor air inlet 16 may serve as an inlet of the air supply passage 21. The outdoor air outlet 15 may serve as an outlet of the air supply passage 21.

Outdoor air may be sucked into the air supply passage 21 through the outdoor air inlet 16. In addition, outdoor air may be discharged to the room through the outdoor air outlet 15.

When one side of the housing 10 is disposed to the indoor side and the other side is disposed to the outdoor side, the indoor air inlet 13 and the outdoor air outlet 15 may be formed on one side of the housing 10. The indoor air outlet 14 and the outdoor air inlet 16 may be formed at the other side of the housing 10.

Meanwhile, the indoor air inlet 13 and the outdoor air outlet 15 may be connected to a pipe extending into the room, extend into the room, and communicate with the room. In addition, the indoor air outlet 14 and the outdoor air inlet 16 may be connected to a pipe extending to the outside and extend to the outside to communicate with the outside.

The air supply fan 30 may be disposed on the air supply passage 21 to force outdoor air to move indoors. By driving the air supply fan 30, outdoor air may be sucked through the outdoor air inlet 16 and discharged to the room through the outdoor air outlet 15.

The exhaust fan 40 may be disposed on the exhaust passage 22 to force indoor air to move outdoors. By driving the exhaust fan 40, indoor air may be sucked through the indoor air inlet 13 and discharged to the outside through the indoor air outlet 14.

That is, when the air supply fan 30 and the exhaust fan 40 are driven, indoor and outdoor air can be exchanged, and indoor air can be ventilated, and the operation of the air conditioner 1 is 'ventilation operation'. It can be said.

Meanwhile, the heat exchanger 50 may be provided in the space 11 of the housing 10. The total heat exchanger 50 may provide a function of exchanging temperature and humidity between indoor air and outdoor air. That is, the total heat exchanger 50 may provide a function of exchanging temperature and humidity between indoor air flowing through the exhaust flow passage 22 and outdoor air flowing through the air supply passage 21. .

To this end, the total heat exchanger 50 may be provided with a total heat exchange element for the exchange of temperature and humidity. In addition, the air supply passage 21 and the exhaust passage 22 may be formed to pass through the electrothermal exchange element.

The total heat exchanger 50 provided with the total heat exchange element is a well-known technique, and thus detailed description thereof will be omitted.

By the pre-heat exchanger 50, the outdoor air on the air supply passage 21 may be supplied to the room by recovering the temperature and humidity of the indoor air on the exhaust flow passage 22. Therefore, energy loss due to the discharge of indoor air can be effectively prevented.

Meanwhile, a damper 60 may be further provided in the space 11 of the housing 10. The damper 60 may be provided to adjust the flow amount of air in the housing 10 and may be operated by a motor (not shown). The damper 60 may be provided on the air supply passage 21 or the exhaust passage 22.

Alternatively, the damper 60 may be provided for opening and closing of a separate discharge passage (not shown) branched from the exhaust passage 22.

In detail, the air conditioner 1 may be provided with a 'rapid ventilation operation' for faster ventilation of the room. The discharge passage may be branched from the exhaust passage 22 and connected to the indoor air outlet 14 and the indoor air intake 13 without passing through the heat exchanger 50.

The damper 60 may close the exhaust passage 22 and open the discharge passage during the rapid ventilation operation so that indoor air may be quickly discharged without passing through the total heat exchanger 50.

The air conditioner 1 may further include a control unit 100. The controller 100 may be provided in the housing 10 and control the overall operation of the air conditioner 1.

In detail, the controller 100 may be electrically connected to the air supply fan 30 and the exhaust fan 40 to control the operation of the air supply fan 30 and the exhaust fan 40.

The controller 100 may independently control operating speeds of the air supply fan 30 and the exhaust fan 40. Therefore, the air volume of the air supplied into the room and the air volume of the air discharged into the room can be adjusted.

In addition, the controller 100 may be electrically connected to the damper 60 to control the operation of the damper 60.

The air conditioner 1 may further include a memory 70. The memory 70 may store various data and operation algorithms related to the operation of the air conditioner 1. The memory 70 may be electrically connected to the controller 100 to provide data and algorithm information for control to the controller 100.

On the other hand, the control unit 100 may receive a command input to the air conditioner 1 by a user, and control the operation of the air conditioner 1. The user inputs a command to the air conditioner 1 may be variously applied.

For example, the air conditioner 1 may be provided with an operation unit (not shown) for a user to input an operation command to the air conditioner 1. The manipulation unit may be provided with a plurality of input buttons, and the user may input various operation commands provided to the air conditioner 1 through manipulation of the input button. The operation unit may be electrically connected to the control unit 100 to transmit an input command.

Alternatively, the air conditioner 1 may further include a remote controller (not shown) through which a user can wirelessly input an operation command, and a receiver for wirelessly receiving a command input through the remote controller. The receiving device may be provided in the housing 10, and may be electrically connected to the control unit 100 to transmit an input command. The user may input various operation commands provided to the air conditioner 1 through manipulation of the remote controller.

When a user instructs the air conditioner 1 to perform the ventilation operation for ventilation of indoor air, the controller 100 drives the air supply fan 30 and the exhaust fan 40 to operate the ventilation operation. Can be performed.

When the ventilation operation is performed, outdoor air may be supplied to the room through the air supply passage 21 by driving the air supply fan 30. In addition, indoor air may be discharged to the outside through the exhaust passage 22 by driving the exhaust fan 40.

On the other hand, the air conditioner 1 may be provided by setting the reference air flow amount supplied through the air supply passage 21 and the reference exhaust air amount discharged through the exhaust flow path 22 during the ventilation operation. That is, the air conditioner 1 may be provided with a 'rated exhaust air volume' corresponding to the reference exhaust air volume during the ventilation operation, and a 'rated air supply air volume' corresponding to the reference air supply air volume when the product is manufactured. .

In detail, the exhaust air volume and the air supply air volume may be adjusted by the output of the exhaust fan 40 and the air supply fan 30. Accordingly, the air conditioner 1 may be provided with reference output values of the exhaust fan 40 and the air supply fan 30 corresponding to the intended rated exhaust air amount and the rated air supply air amount. Reference output values of the exhaust fan 40 and the air supply fan 30 may be stunningly provided to the memory 70.

The control unit 100 controls the exhaust fan 40 and the air supply fan 30 to a predetermined reference output value during the ventilation operation so that the exhaust air flow rate and the air supply air flow rate are the intended rated exhaust air flow rate and the rated air supply air flow rate. Can be controlled.

Meanwhile, the air conditioner 1 may be provided with a plurality of air volume levels selectable by the user during the ventilation operation.

For example, the air flow level may be divided into a first air flow level and a second air flow level. The second air volume level may be a level at which the rated exhaust air flow rate and the rated air supply air flow amount are greater than the first air flow rate level. The user can select a desired air flow level through the operation of the operation unit or the remote control.

In this case, the rated exhaust air flow rate and the rated air supply air flow rate for each air flow level may be set and provided at the time of product production. That is, the output value of the exhaust fan 40 and the air supply fan 30 corresponding to the rated exhaust air flow rate and the rated air supply air flow amount for each air flow level may be set and provided in the memory 70.

On the other hand, when the air conditioner 1 is operated at one air flow level, the rated exhaust air flow rate and the rated air supply air flow amount may be the same air flow amount.

On the other hand, the controller 100 may compare the air quality of the indoor and outdoor with each other, and control the operation of the air conditioner 1 according to the result.

For example, the controller 100 may compare the concentrations of specific elements included in the indoor air and the outdoor air. At this time, the specific element may be a pollution component that degrades the air quality.

Hereinafter, for the convenience of explanation, the pollution component will be described in detail by taking the example of carbon dioxide (CO2), and the pollution component is not limited to carbon dioxide (CO2), such as carbon monoxide, fine dust, etc., which degrades air quality. Note that it can be applied to various components.

To this end, the air conditioner 1 includes a first sensor 200 for measuring the concentration of the pollution component of the outdoor air, and a second sensor 300 for measuring the concentration of the pollution component of the indoor air. can do.

In the present embodiment, the first sensor 200 may be a CO2 measurement sensor for measuring the CO2 concentration of the outdoor air. In addition, the second sensor 300 may be a CO2 measurement sensor measuring CO2 concentration of indoor air.

The first sensor 200 may be provided at various locations capable of measuring CO 2 concentration of outdoor air. In addition, the second sensor 300 may be provided at various locations capable of measuring the CO 2 concentration of the indoor air.

For example, the first sensor 200 may be provided on the air supply passage 21 to measure the CO 2 concentration of outdoor air supplied to the room through the air supply passage 21. In this case, the first sensor 200 is located between the outdoor air intake port 16 and the heat exchanger 50, so that the outdoor air is not affected by the heat exchanger 50, so The concentration can be measured more accurately.

In addition, the second sensor 300 may be provided on the exhaust passage 22 to measure the CO 2 concentration of the indoor air discharged to the outside through the exhaust passage 22. At this time, the second sensor 300 is located between the indoor air inlet 13 and the heat exchanger 50, so that the indoor air is not affected by the heat exchanger 50. CO2 concentration can be measured more accurately.

Hereinafter, a method of controlling the air conditioner 1 according to a difference between CO 2 concentrations of indoor air and outdoor air will be described in detail with reference to the accompanying drawings.

3 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention.

When a ventilation operation command is input to the air conditioner 1, the controller 100 may drive the air supply fan 30 and the exhaust fan 40 to perform a ventilation operation.

By driving the air supply fan 30, outdoor air may be supplied to the room through the air supply passage 21. In addition, the indoor air may be discharged to the outside through the exhaust passage 22 by driving the exhaust fan 40.

In the initial driving of the air conditioner 1, the controller 100 may control the output of the air supply fan 30 and the exhaust fan 40 so that the rated air supply amount and the rated exhaust air amount are generated. . [S10]

On the other hand, the control unit 100 may detect the CO2 concentration of the outdoor air through the first sensor 200.

In addition, the controller 100 may detect the CO 2 concentration of the indoor air through the second sensor 300.

The controller 100 may detect the CO 2 concentration only during the ventilation operation. Alternatively, the CO2 concentration may be detected at regular intervals or may be always detected. [S20]

The control unit 100 compares the indoor and outdoor CO2 concentration values input from the first sensor 200 and the second sensor 300 to determine whether the outdoor air quality is poor or good compared to the indoor air. You can judge and see how good and bad you are.

For example, the controller 100 may calculate a difference value P between the CO 2 concentration of the indoor air measured by the second sensor 300 and the CO 2 concentration of the outdoor air measured by the first sensor 200. have. That is, the controller 100 may calculate a value of 'indoor CO2 concentration (PPM)-outdoor CO2 concentration (PMM)'.

In addition, the controller 100 may determine whether the quality of outdoor air is worse or worse than the indoor air, based on the difference value P, and may grasp the good degree and the bad degree.

In addition, the controller 100 may vary the air supply air amount and the exhaust air amount according to the numerical value of the difference value P. FIG. For example, according to the numerical value of the difference value P, the ventilation operation may be changed into the supply air flow increase operation, the rated air flow operation, or the exhaust air flow decrease operation.

In detail, when the difference value P is within a specific range, the controller 100 may determine that the rated air flow is suitable and perform the rated air flow.

For example, the rated air flow operation may be performed when it is determined that the quality of indoor air is worse than or equal to the quality of outdoor air. The rated air flow rate operation may be a basic ventilation operation in which the air supply air flow rate and the exhaust air flow amount are maintained at the rated air supply air flow rate and the rated exhaust air flow rate.

In addition, when the difference value P exceeds the specific range, the controller 100 may determine that rapid ventilation is required and perform the air supply air volume increasing operation.

For example, the supply air flow increase operation may be performed in a situation where the difference value P is larger than that at the rated air flow operation. That is, the operation of increasing the supply air volume may be performed when it is determined that the quality of the indoor air is much worse than the quality of the outdoor air. The air supply air increase operation may be an operation in which the air supply air amount is increased than the rated air supply air amount.

In addition, when the difference value P is less than the specific range, the controller 100 may perform the exhaust air volume reduction operation.

For example, the exhaust air volume reduction operation may be performed when it is determined that the quality of indoor air is better than the quality of outdoor air. The exhaust air volume reduction operation may be an operation in which the exhaust air volume is reduced than the rated air supply air volume.

In the memory 70, a category of the difference value P, which is a condition for the supply air flow increase operation, the rated air flow operation, and the exhaust air flow decrease operation, may be set and provided. [S30]

In the memory 70, a reference value A1 may be set as a reference for determining that the indoor air quality is much worse than the outdoor air quality.

For example, the reference value A1 may be set to 200 PPM when the pollution factor is carbon dioxide.

In addition, when the difference value P is greater than the reference value A1, it may be determined that the indoor air quality is much worse than the outdoor air quality. That is, when the indoor CO2 concentration exceeds 200PPM than the outdoor CO2 concentration, the indoor air quality may be determined to be much worse than the outdoor air quality.

In this case, the controller 100 may determine that the supply air volume increase operation is suitable. [S40]

When the difference value P exceeds the reference value A1, the control unit 100 may perform the air supply air amount increasing operation of increasing the air supply air volume more than the rated air supply air amount. That is, the controller 100 may increase the output of the air supply fan 30 from the reference output so that the air supply air volume is greater than the rated air supply air volume.

On the other hand, during the air supply air volume increase operation, the exhaust air volume may be maintained at the rated exhaust wind volume, it may be increased than the rated exhaust wind volume.

For example, in the air supply air volume increase operation, the air supply air volume may be 120% of the rated air supply air volume.

On the other hand, during the air supply air volume increase operation, the air supply air amount may be further increased step by step according to the level of the difference value (P).

For example, the reference value A2 larger than the reference value A1 may be further set in the memory 70.

When the difference value P exceeds the reference value A1 and is less than or equal to the reference value A2, the controller 100 may control the air supply air amount to be 120% of the rated air supply air amount. And when the said difference value P exceeds the said reference value A2, it can control so that the air supply wind volume may be 150% of the rated air supply wind volume.

As such, when the quality of the indoor air is much worse than the quality of the outdoor air, the quality of the indoor air can be made quick and comfortable by steaming the air supply air volume more than the rated air supply air volume. That is, the supply of outdoor air can be accelerated so that the CO2 concentration of the indoor air can be quickly lowered. [S45]

On the other hand, when the difference value P is equal to or greater than zero below the reference value A1, the quality of the indoor air may be determined to be lower than or equivalent to the quality of the outdoor air.

In this case, the controller 100 may determine that the rated air flow rate is suitable. [S50]

When the difference value P is equal to or greater than 0 below the reference value A1, the controller 100 may perform the rated air flow operation. That is, the controller 100 may control the output of the air supply fan 30 and the exhaust fan 40 so that the air supply air flow rate and the exhaust air flow amount are maintained at the rated air supply air flow rate and the rated exhaust air flow amount.

That is, during the rated air flow rate operation, the air supply air flow rate may be 100% of the rated air supply air flow rate. The exhaust wind volume may be 100% of the rated exhaust wind volume.

As such, if the quality of the indoor air is equal to the quality of the outdoor air, or worse than the quality of the outdoor air, within the normal range, by providing the rated air flow rate and the rated exhaust air flow rate, the indoor air can be vented to the intended normal level. [S55]

On the other hand, when the difference value P exceeds 0, it may be determined that the quality of the indoor air is better than the quality of the outdoor air.

In this case, the controller 100 may determine that the exhaust air volume reducing operation is suitable. [S60]

When the difference value P exceeds 0, the controller 100 may perform the exhaust air volume reduction operation. That is, the controller 100 may reduce the output of the exhaust fan 40 from the reference output so that the exhaust air volume is less than the rated exhaust air volume.

At this time, the control unit 100 may control the output of the exhaust fan 40 to be lower than the reference output but higher than zero so that the exhaust fan 40 does not stop.

On the other hand, during the exhaust air volume reduction operation, the air supply air volume can be maintained at the rated exhaust air volume. That is, the air supply air flow rate is maintained at the rated exhaust air flow rate, and only the exhaust air flow rate can be reduced.

On the other hand, during the exhaust air volume reduction operation, the exhaust air volume may be further reduced step by step according to the level of the difference value (P).

For example, a reference value A3 smaller than 0 may be further set in the memory 70.

When the difference value P is less than 0 and the reference value A3 or more, the controller 100 may control the exhaust air volume to be 80% of the rated exhaust air volume.

And when the said measured value P is less than the reference value A3, it can control so that exhaust air volume may be 50% of a rated exhaust wind volume.

As such, when the quality of the indoor air is better than the quality of the outdoor air, the exhaust air volume can be reduced than the rated exhaust air volume so that the indoor air of good quality can be discharged slowly. Therefore, while the indoor air is ventilated, it is possible to prevent the CO 2 concentration of the indoor air from increasing rapidly and to maintain the comfort of the indoor air. [S65]

Claims (22)

A housing having an air supply path through which outdoor air is introduced into the room, and an exhaust path through which the indoor air is discharged to the outside;
An air supply fan provided in the housing and configured to generate air supply air by forcing the inflow of outdoor air;
An exhaust fan provided in the housing and configured to generate exhaust air volume by forcibly discharging indoor air;
A first sensor measuring a concentration of a specific pollution component contained in outdoor air;
A second sensor for measuring a concentration of a specific pollutant contained in indoor air;
And a controller configured to vary outputs of the air supply fan and the exhaust fan according to the measured difference value P between the concentration of the air pollutant of the outdoor air and the concentration of the air pollutant of the indoor air. The method of claim 1,
And the first sensor is provided on an air supply passage of the housing. The method of claim 2,
And the second sensor is provided on an exhaust passage of the housing. The method of claim 1,
The first sensor and the second sensor, the air conditioner, characterized in that the carbon dioxide measuring sensor for measuring the concentration of carbon dioxide. The method of claim 1,
The control unit, when the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air,
And reducing the output of the exhaust fan from the reference output, thereby reducing the exhaust air volume so as to reduce the exhaust air volume than the reference exhaust air volume. The method of claim 5,
When the exhaust air volume reduction operation,
And the control unit controls the output of the exhaust fan to be lower than a reference output but higher than zero so that the exhaust fan is not stopped. The method of claim 5,
When the exhaust air volume reduction operation,
The control unit controls the output of the air supply fan as a reference output, the air conditioner characterized in that the air supply air volume is maintained at the standard air supply air volume. The method of claim 5,
When the exhaust air volume reduction operation,
The control unit is characterized in that for reducing the output of the exhaust fan step by step according to the degree to which the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air. The method of claim 1,
The control unit, when the concentration of the pollution component of the indoor air is the same as the concentration of the pollution component of the outdoor air, or the concentration of the pollution component of the indoor air is higher but below the predetermined reference value (A1),
And controlling the exhaust fan and the air supply fan to a reference output to perform a rated air flow operation such that the exhaust air flow rate and the air supply air flow rate are maintained at the reference exhaust air flow rate and the standard air supply air flow rate. The method of claim 9,
The control unit, if the concentration of the pollution component of the indoor air is higher than the reference value (A1) than the concentration of the pollution component of the outdoor air,
And increasing the output of the air supply fan than a reference output to perform an air supply air volume increasing operation such that the air supply air volume is larger than the reference air supply air volume. The method of claim 10,
When the air supply air volume increase driving,
The control unit controls the output of the exhaust fan to a reference output, the air conditioner, characterized in that the exhaust air amount is maintained at the reference exhaust air volume. The method of claim 10,
When the air supply air volume increase driving,
And the control unit increases the output of the air supply fan step by step according to the degree to which the concentration of the pollution component of the indoor air is higher than the concentration of the pollution component of the outdoor air. An air supply flow path through which the outdoor air flows into the room, an exhaust flow path through which the indoor air is discharged to the outside is formed, an air supply fan forcing the outdoor air through the air supply flow path, and a discharge air flow through the exhaust air flow path. In the control method of the air conditioner is provided with an exhaust fan,
A concentration measuring step of measuring concentrations of specific pollution components included in indoor air and outdoor air;
Calculating a difference value P between the concentration of the pollution component of the indoor air and the concentration of the pollution component of the outdoor air by the controller;
And a variable operation controlling the output of the air supply fan and the exhaust fan to vary the amount of supply air supplied to the room and the amount of exhaust air discharged to the outside according to the difference value P in the control unit. Air conditioner control method. The method of claim 13,
In the concentration measuring step, the control method of the air conditioner, characterized in that for measuring the carbon dioxide concentration of the indoor air and outdoor air. The method of claim 13,
In the driving variable step,
The control unit, when the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air,
And controlling the exhaust air volume reducing operation to reduce the output of the exhaust fan from the reference output to make the exhaust air volume smaller than the reference exhaust air volume. The method of claim 15,
When the exhaust air volume reduction operation,
And the control unit controls the output of the exhaust fan to be lower than the reference output but higher than zero so that the exhaust fan is not stopped. The method of claim 15,
When the exhaust air volume reduction operation,
The control unit controls the output of the air supply fan as a reference output, so that the air supply air volume control method of the air conditioner, characterized in that to be maintained. The method of claim 15,
When the exhaust air volume reduction operation,
The control unit, the control method of the air conditioner, characterized in that for reducing the output of the exhaust fan step by step according to the degree that the concentration of the pollution component of the indoor air is lower than the concentration of the pollution component of the outdoor air. The method of claim 13,
In the driving variable step,
The control unit, when the concentration of the pollution component of the indoor air is the same as the concentration of the pollution component of the outdoor air, or the concentration of the pollution component of the indoor air is higher but below the predetermined reference value (A1),
And controlling the exhaust fan and the air supply fan to a reference output so as to perform a rated air flow operation such that the exhaust air flow rate and the air supply air flow are maintained at the reference exhaust air flow rate and the standard air supply air flow rate. The method of claim 19,
In the driving variable step,
The control unit, if the concentration of the pollution component of the indoor air is higher than the reference value (A1) than the concentration of the pollution component of the outdoor air,
And increasing the output of the air supply fan than the reference output to increase the air supply air volume to the air supply fan. The method of claim 20,
When the air supply air volume increase driving,
The control unit controls the output of the exhaust fan to a reference output, the control method of the air conditioner, characterized in that the exhaust air amount is maintained at the reference exhaust air volume. The method of claim 20,
When the air supply air volume increase driving,
The control unit, the control method of the air conditioner, characterized in that to increase in step the output of the air supply fan according to the degree to which the concentration of the pollution component of the indoor air is higher than the concentration of the pollution component of the outdoor air.

Images