KR100577212B1 - Method for Controlling Airflow Volume of Ventilating System - Google Patents

Abstract

The present invention relates to a method of controlling the air volume of a ventilation system to improve the efficiency of air cleaning by controlling the air volume of the fan in response to a sudden change in the VOC (volatile organic compound) concentration during air cleaning, the present VOC concentration value (New) and calculating the VOC concentration change amount (New-Old); Comparing a reference concentration value divided into a plurality of steps with a current VOC concentration value New to determine a level of the VOC concentration; Comparing the VOC concentration change amount (New-Old) with a reference change amount divided into a plurality of steps to determine a level of the VOC concentration change amount; And controlling the driving intensity of the air supply fan and the exhaust fan according to the determined level of the VOC concentration and the level of the VOC concentration change amount. Therefore, the present invention is to determine the pollution degree of the indoor air through the absolute VOC concentration value and the VOC concentration change amount, and to control the air volume of the ventilation system according to the determined pollution degree to maximize the efficiency of air cleaning with the most suitable type of air volume Can be.

Air Conditioning / Ventilation System / Air Flow / VOC (Organic Compound)

Description

Method for Controlling Airflow Volume of Ventilating System

1 is a view showing the overall configuration of a general air conditioner consisting of an air conditioner and a ventilation system

2 is a block diagram showing the configuration of an air conditioner centered on a ventilation system;

3 is a flowchart illustrating a method for controlling air volume during air cleaning according to the prior art;

4 is a flow chart illustrating a method for controlling air volume during air cleaning through the ventilation system of the present invention.

* Explanation of symbols for main parts of the drawings

31: control unit 34: remote control

35: indoor unit 36: damper position detection sensor

37: VOC sensor 38: Air supply fan drive circuit

39: exhaust fan drive circuit 40: damper drive circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to a method for controlling air volume of a ventilation system in which air volume of a fan can be adjusted in response to a sudden change in VOC (volatile organic compound) concentration during air cleaning.

In the following description, the air conditioner includes an air conditioner and a ventilation system.

In general, an air conditioner is composed of a mechanical device that cools and heats a room by using a heat exchange process between a heat exchange medium and an ambient atmosphere that undergoes a phase change process while circulating a closed circuit, so as to cool the hot air in a room during summer. It refers to the air conditioner that is used for cooling and the air conditioner that is used as a heating fan to heat indoor cold air in winter.

An air conditioner having such a function is generally used in conjunction with a ventilation system inserted into a ceiling through a hole formed in a ceiling of a building, and the ventilation system introduces indoor air and exhausts it to the outside. It is composed of a process of supplying air and supplying air into the room.

In recent years, such a ventilation system has been increasing in use with an air conditioner due to the advantage of not taking up space in the room.

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

FIG. 1 is an overall configuration diagram of a general air conditioner composed of an air conditioner and a ventilation system, and FIG. 2 is a block diagram of the air conditioner shown centering on the ventilation system.

In general, when the air conditioner is configured indoors and outdoors as shown in FIG. 1 and is cooled by the air conditioner 10, the ventilation system drives an air supply fan to convert outdoor air into and out of the heat exchanger. After cooling to a temperature similar to the room temperature through the (20), to be introduced into the room through the air supply unit 22.

When the heating operation is performed through the air conditioner 10, the air flows through the circulation circuit opposite to the circulation direction during the cooling operation, and passes the indoor air through the exhaust unit 24 and the heat exchanger 20. To be exhausted.

Referring to the configuration of the ventilation system for performing the air cleaning in the configuration of such an air conditioner as follows.

As shown in FIG. 2, the ventilation system controls the overall system, detects the VOC concentration, and controls the air supply fan drive and the intake fan drive based on the control unit 31 to purify the air in the room, and a damper for adjusting the air volume. A damper position detection sensor 36 for detecting the position of the gas, a VOC sensor 37 for detecting the VOC (volatile organic compound) concentration of the indoor air, and an exhaust fan for driving the exhaust fan to suck the polluted air in the room An air supply filter (not shown) for removing contaminants of the sucked air, and an air supply for driving an air supply fan to supply clean air purified through the air purification filter to the room And a damper driving circuit 40 for driving the damper according to the detection result of the damper position detecting sensor 36 when the air volume is determined by the fan driving circuit 38 and the control of the control unit 31.

Here, reference numeral 34 is a remote controller for inputting a signal for controlling the operation of the ventilation system by the user's selection, and 35 is an indoor unit of the air conditioner.

Polluted or stagnant air in the room contains a large amount of VOCs (Volatile Organic Compounds), and the air in these enclosed spaces has very unpleasant and harmful effects on the human body such as respiratory diseases, allergic skin diseases and headaches.

Therefore, when several people stay in an enclosed space, such as an office or a vehicle, it is necessary to purify the polluted air in the room and supply fresh and fresh air.

In this case, the air cleaning function using the ventilation system as shown in FIGS. 1 and 2 is used.

When the user executes the air cleaning function, the exhaust fan is first driven under the control of the controller 31 to suck the polluted air in the room through the exhaust part 24.

In addition, the air sucked through the exhaust part 24 passes through an air purification filter (not shown) in the total heat exchanger 20. At this time, dust or organic compounds contained in the air through the air purification filter. And other contaminants are removed.

Subsequently, the air supply fan is driven under the control of the control unit 31 to supply clean air passing through the air purification filter to the room through the air supply unit 22.

The air flow control method of the ventilation system having the air cleaning function as described above will be described with reference to FIG. 3.

When the user sets the air cleaning function of the ventilation system to automatic operation, first, the stabilization of the VOC sensor 37 is performed, and the stabilization time of the VOC sensor 37 has passed the set time (typically, 3 minutes). It is determined whether or not (S1).

As a result (S1), when the stabilization time of the VOC sensor 37 elapses, the VOC value detected by the current VOC sensor 37 is read (S2).

At this time, when the VOC sensor value is 3V or more, ① recognizes the high concentration and operates the strong air volume of the ventilation system to perform the air cleaning (S3, S4).

On the other hand, if the VOC sensor value is 2V or more and 3V or less, ② recognize the medium concentration to operate the air volume of the ventilation system to medium wind (S5, S6), and if the VOC sensor value is 2V or less, ③ recognize the low concentration, the air volume of the ventilation system To drive in a mild wind (S7).

Conventional ventilation system, as shown in Table 1 below, by supplying a comfortable clean air to the room by controlling the air volume of the fan according to the VOC concentration detected through the VOC sensor 37.

VOC concentration Air flow ① 3.0V or more gale ② 2.0V or more ~ 3.0V or less A stroke ③ 2.0V or less Breeze

However, the ventilation system according to the related art described above has the following problems.

The ventilation system of the prior art controls the air volume of the air supply and exhaust fan in three stages (strong wind, heavy wind, and weak wind) according to the absolute value of the VOC concentration. It was not able to deal effectively with sudden changes.

In other words, if the amount of change in the VOC concentration suddenly increases due to indoor smoking or a sudden increase in the number of people, the air volume is controlled solely based on the absolute value of the VOC concentration, despite the rapid deterioration of indoor air. There was a difficult issue.

The present invention is to solve the problem of the prior art ventilation system, and to control the air volume of the fan in response to a sudden change in the VOC (volatile organic compound) concentration during air cleaning to improve the efficiency of air cleaning It is an object of the present invention to provide a method for controlling air volume of a ventilation system.

Air flow control method of the ventilation system according to the present invention for achieving the above object comprises the steps of obtaining the current VOC concentration value (New) and VOC concentration change amount (New-Old); Comparing a reference concentration value divided into a plurality of steps with a current VOC concentration value New to determine a level of the VOC concentration; Comparing the VOC concentration change amount (New-Old) with a reference change amount divided into a plurality of steps to determine a level of the VOC concentration change amount; And controlling the driving intensities of the air supply fan and the exhaust fan according to the determined level of the VOC concentration and the level of the VOC concentration change amount.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

A preferred embodiment of the airflow control method of the ventilation system according to the present invention will be described with reference to the accompanying drawings.

4 is a flow chart illustrating a method for controlling air volume during air cleaning through the ventilation system of the present invention.

The present invention simultaneously uses the absolute VOC concentration value (New) and the VOC concentration change amount (New-Old) measured by the VOC sensor 37 as a reference factor for controlling the air volume of the ventilation system when cleaning the air.

This is a function as shown in the table in Table 2, by using a function as shown in the table, actively correct the air volume for the concentration of VOC (volatile organic compounds) increased by various causes, such as a rapid increase in stagnant air and indoor personnel It is to.

VOC Concentration (V) (New) (Large) 3.0V or more (Medium) 2.0 V or more to 3.0 V or less (Small) 2.0V or less VOC variation (dV) (New-Old) (Large) +0.1 or more A special lecture gale A stroke (Medium) -0.1 or more-+0.1 or less A special lecture A stroke Breeze (Small) -0.1 or less gale A stroke Breeze

That is, the fuzzy membership function of Table 2 shows the correlation between the absolute VOC concentration value (New), the VOC concentration change amount (New-Old), and the air volume.

According to the purge rule of Table 2, if the VOC concentration is (small) and the VOC concentration change is (medium) or (small), it is judged that the room is clean and that the situation in the room does not have a sudden increase in pollution, so that the air volume of the ventilation system ( Controlled by light wind).

If the VOC concentration is (large) and the VOC concentration change amount is (large) or (middle), it is determined that there is a sudden increase in pollution as well as the current indoor pollution, and the air volume is controlled by (special strong wind).

If the VOC concentration is (large) and the VOC concentration change amount is (small), there is no sudden increase in pollution, but the current pollution level is determined to be large, and if the VOC concentration is medium and the VOC concentration change amount is large, Although the current indoor pollution level is not large, it is determined that there is a sudden increase in pollution, and the air volume is controlled by (strong wind).

And, if the VOC concentration is (medium) and the VOC concentration change amount is (medium) or (small) or the VOC concentration is (small) and the VOC concentration change amount is (large), the current indoor pollution or increase in pollution is generally It judges that there exists and controls the air volume by (midwind).

As described above, a method of controlling the air volume of the ventilation system using the fuzzy membership function considering both the VOC concentration value (New) and the VOC concentration change amount (New-Old) currently detected in the room is as follows.

As shown in FIG. 4, when the user sets the automatic operation of the air cleaning function in the ventilation system, it is first determined whether the stabilization time (normally, 3 minutes) of the VOC sensor 37 has elapsed (S10). .

As a result of the determination (S10), when the stabilization time of the VOC sensor 37 has elapsed, the current VOC concentration New is detected through the VOC sensor 37 and at the same time, the current VOC concentration and the previous VOC concentration Old Obtaining the difference to obtain the VOC concentration change amount (New-Old) (S20).

As described above, when the current VOC concentration value New and the VOC concentration change amount New-Old are obtained, a step for controlling the air volume of the ventilation system for performing air cleaning is performed.

In the present invention, the reference level for comparing with the current VOC concentration value is divided into (large)> (medium)> (small), and the reference level for comparing with the VOC concentration change amount is (large)> (medium)> (small ).

For example, the reference level for the VOC concentration value is divided into (large), (medium), (small) in order of 3.0 V or more, 2.0 V or more, 3.0 V or less, 2.0 V or less, and The reference level is divided into + 0.1V or more, -0.1V or more and + 0.1V or less, and -0.1V or less. It is natural that the air volume can be controlled to further refine the size division of each reference level so that accurate and rapid ventilation is achieved.

First, it is determined whether the current VOC concentration detected indoors is equal to or higher than the reference level 3.0V (S30).

As a result of the determination (S30), if the current VOC concentration is greater than or equal to the reference level 3.0V, it is determined that the magnitude of the VOC concentration is (large), and then the magnitude of the VOC concentration change amount is determined.

First, it is determined whether the VOC concentration change amount is more than the reference level + 0.1V (S40).

As a result of the determination (S40), when the VOC concentration change amount is greater than or equal to the reference level + 0.1V, it is finally determined that the magnitude of the VOC concentration is (large) and the magnitude of the VOC concentration variation is (large). It is driven by the wind (S41).

On the other hand, in the determination result (S40), if the VOC concentration change amount is less than the reference level + 0.1V or less, it is determined whether the VOC concentration change amount is more than the reference level -0.1V (S42).

The determination result (S42), if the VOC concentration change amount is less than the reference level + 0.1V and -0.1V or more, it is finally determined that the magnitude of the VOC concentration is (large) and the magnitude of the VOC concentration variation is (middle) The air supply fan and the exhaust fan are driven in a special wind (S43).

On the other hand, when the determination result (S42), the VOC concentration change amount is less than the reference level -0.1V, it is finally determined that the magnitude of the VOC concentration is (large) and the magnitude of the VOC concentration change amount is (small), the air supply fan and exhaust The fan is driven in a strong wind (S44).

If the current VOC concentration is less than or equal to the reference level 3.0V, the determination result (S30) determines whether or not the VOC concentration is greater than or equal to the reference level 2.0V (S50).

As a result of the determination (S50), if the current VOC concentration is 3.0V or less and 2.0V or more, it is determined that the magnitude of the VOC concentration is medium, and first, it is determined whether the VOC concentration change amount is more than the reference level + 0.1V ( S60).

As a result of the determination (S60), if the VOC concentration change amount is greater than or equal to the reference level + 0.1V, it is finally determined that the magnitude of the VOC concentration is medium and the magnitude of the VOC concentration change amount is large. Drive (S61).

On the other hand, in the determination result (S60), if the VOC concentration change amount is less than the reference level + 0.1V or less, it is determined whether the VOC concentration change amount is more than the reference level -0.1V (S62).

The determination result (S62), if the VOC concentration change amount is less than the reference level + 0.1V and -0.1V or more, it is finally determined that the magnitude of the VOC concentration is (medium) and the magnitude of the VOC concentration change amount is (medium) The air supply fan and the exhaust fan are driven by a heavy wind (S63).

On the other hand, when the determination result (S62), the VOC concentration change amount is less than the reference level -0.1V, it is finally determined that the magnitude of the VOC concentration is (medium) and the magnitude of the VOC concentration change amount is (small), the air supply fan and exhaust The fan is driven by the stroke (S64).

If the current VOC concentration is 2.0 V or less, the determination result (S50) determines that the magnitude of the VOC concentration is (small), and first, it is determined whether the VOC concentration change amount is greater than or equal to the reference level +0.1 V (S70). ).

As a result of the determination (S70), if the VOC concentration change amount is greater than or equal to the reference level + 0.1V, it is finally determined that the magnitude of the VOC concentration is (small) and the magnitude of the VOC concentration change amount is (large), and the air supply fan and the exhaust fan are blown out. (S71).

On the other hand, in the determination result (S70), if the VOC concentration change amount is less than the reference level + 0.1V or less, it is determined whether the VOC concentration change amount is more than the reference level -0.1V (S72).

The determination result (S72), if the VOC concentration change amount is less than the reference level + 0.1V and -0.1V or more, it is finally determined that the magnitude of the VOC concentration is (small) and the magnitude of the VOC concentration change amount is (medium) The air supply fan and the exhaust fan are driven with weak wind (S73).

On the other hand, when the determination result (S72), the VOC concentration change amount is less than the reference level -0.1V, it is finally determined that the magnitude of the VOC concentration is (small) and the magnitude of the VOC concentration change amount is (small), the air supply fan and exhaust The fan is driven in a mild wind (S74).

Accordingly, the present invention uses the VOC concentration change amount as the air volume control factor together with the absolute VOC concentration value, so that it can efficiently cope with the case where the indoor pollution degree suddenly worsens.

That is, even if the VOC concentration change amount of the room suddenly increases, it is possible to efficiently maintain the cleanliness of the room.

The air volume control method of the ventilation system according to the present invention as described above has the following effects.

First, by using the VOC concentration change amount in addition to the absolute value of the VOC concentration as the air volume control factor, it is possible to efficiently cope with the rapid indoor air pollution.

Second, it determines the pollution level of indoor air by using various factors such as VOC concentration value and VOC concentration change amount, and controls the air volume of the ventilation system according to the determined pollution level to maximize the efficiency of air cleaning with the most suitable type of air volume. You can.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (11)

Obtaining a current VOC concentration value (New) and a VOC concentration change amount (New-Old); Comparing a reference concentration value divided into a plurality of steps with a current VOC concentration value New to determine a level of the VOC concentration; Comparing the VOC concentration change amount (New-Old) with a reference change amount divided into a plurality of steps to determine a level of the VOC concentration change amount; And, And controlling the driving intensity of the air supply fan and the exhaust fan according to the determined level of the VOC concentration and the level of the VOC concentration change amount. The method according to claim 1, wherein in the step of determining the levels of VOC concentration and VOC concentration variation in order to control the driving intensity of the air supply fan and the exhaust fan, Set the reference value for classifying the VOC concentration size as (Large)> (Medium)> (Small), set the reference value for classifying the VOC concentration level as (Large)> (Medium)> (Small), Comparing the current VOC concentration with a reference value (large), If the current VOC concentration value is greater than the reference value (large), comparing the VOC concentration variation with the reference value (large); If the resultant VOC concentration change amount is greater than the reference value (large), determining that the magnitude of the VOC concentration is large (large) and the magnitude of the VOC concentration changing amount is large (large), And the air supply fan and the exhaust fan are driven by special wind. delete The method according to claim 2, wherein in the step of comparing the VOC concentration change amount with a reference value (large), if the VOC concentration change amount is smaller than the reference value (large), Comparing the VOC concentration change with a reference value (m); As a result, if the VOC concentration change amount is greater than the reference value (middle), determining that the magnitude of the VOC concentration is (large) and the magnitude of the VOC concentration change amount is (middle), And the air supply fan and the exhaust fan are driven in a special strong wind. The method according to claim 4, wherein in the step of comparing the VOC concentration change amount with the reference value (middle), if the VOC concentration change amount is smaller than the reference value (middle), Determining that the magnitude of the VOC concentration is (large) and the magnitude of the VOC concentration change amount is (small), And the air supply fan and the exhaust fan are driven by strong winds. The method according to claim 2, wherein in the step of determining the levels of VOC concentration and VOC concentration variation in order to control the driving intensity of the air supply fan and the exhaust fan, Set the reference value for classifying the VOC concentration size as (Large)> (Medium)> (Small), set the reference value for classifying the VOC concentration level as (Large)> (Medium)> (Small), If the current VOC concentration value is less than the reference value (large), comparing the current VOC concentration value with the reference value (medium), If the current VOC concentration value is greater than the reference value (medium), comparing the VOC concentration change amount with the reference value (large), As a result, if the VOC concentration change amount is greater than the reference value (large), determining that the magnitude of the VOC concentration is medium and the magnitude of the VOC concentration change amount is large. And the air supply fan and the exhaust fan are driven by strong winds. The method according to claim 6, wherein in the step of comparing the VOC concentration change amount with a reference value (large), if the VOC concentration change amount is smaller than the reference value (large), Comparing the VOC concentration change with a reference value (m); As a result of the comparison, if the amount of VOC concentration change is greater than a reference value (medium), determining that the magnitude of the VOC concentration is medium and the magnitude of the VOC concentration change amount is medium. The air volume control method of the ventilation system, characterized in that for driving the air supply fan and the exhaust fan in the middle wind. The method according to claim 7, wherein in the step of comparing the VOC concentration change amount with the reference value (middle), if the VOC concentration change amount is smaller than the reference value (middle), Determining that the magnitude of the VOC concentration is (medium) and the magnitude of the VOC concentration change amount is (small), The air volume control method of the ventilation system, characterized in that for driving the air supply fan and the exhaust fan in the middle wind. The method according to claim 2, wherein in the step of determining the levels of VOC concentration and VOC concentration variation in order to control the driving intensity of the air supply fan and the exhaust fan, Set the reference value for classifying the VOC concentration size as (Large)> (Medium)> (Small), set the reference value for classifying the VOC concentration level as (Large)> (Medium)> (Small), If the current VOC concentration value is less than the reference value (medium), comparing the VOC concentration change amount with the reference value (large), Determining that the magnitude of the VOC concentration is (small) and the magnitude of the VOC concentration is large (large) if the amount of VOC concentration change is greater than a reference value (large), The air volume control method of the ventilation system, characterized in that for driving the air supply fan and the exhaust fan in the middle wind. 10. The method according to claim 9, wherein in the step of comparing the VOC concentration change amount with a reference value (large), if the VOC concentration change amount is smaller than the reference value (large), Comparing the VOC concentration change with a reference value (m); As a result of the comparison, determining that the magnitude of the VOC concentration change is (small) and the magnitude of the VOC concentration change amount is (medium) if the amount of VOC concentration change is greater than a reference value (middle), And the air supply fan and the exhaust fan are driven by weak wind. The method according to claim 10, wherein in the step of comparing the VOC concentration change amount with a reference value (middle), if the VOC concentration change amount is smaller than the reference value (middle), Determining that the magnitude of the VOC concentration is (small) and the magnitude of the VOC concentration change amount is (small), And the air supply fan and the exhaust fan are driven by weak wind.

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