KR102409560B1 - Active type IAQ damper control system for air conditioning and ventilation and damper control method using the same - Google Patents

Abstract

An active IAQ damper control system for air conditioning and ventilation according to an aspect of the present invention includes an IAQ sensor that measures IAQ (Indoor Air Quality) concentration, and a duct that is connected to the IAQ sensor and is proportionally controlled during air conditioning based on the IAQ concentration. Exhaust damper, a fire receiver that generates a signal when a fire occurs, a volume damper and smoke control damper of a duct that is connected to the fire receiver and operates in case of a fire, a supply/exhaust damper of the duct, a volume damper of the duct and a smoke control damper It may be provided with a control device for proportionally controlling the supply/exhaust damper of the duct according to the IAQ concentration measured by the IAQ sensor during air conditioning, and controlling the volume damper and the smoke control damper of the duct on/off in case of fire.

Description

Active type IAQ damper control system for air conditioning and ventilation and damper control method using the same

_The present invention relates to an active _IAQ damper control system for both air conditioning and ventilation and a damper control method using the same. It improves indoor air quality by proportionally controlling the air conditioner or duct supply (or exhaust) damper according to the concentration. By controlling /OFF, various dampers (air conditioner supply/exhaust damper, duct volume damper and smoke control damper) can be selectively and actively controlled depending on the situation so that pollutants (smoke, etc.) in the fire area (room) can be quickly discharged. It relates to an active type IAQ damper control system for air conditioning and ventilation, and a damper control method using the same.

In general, buildings are equipped with an air conditioning system (air conditioner) and supply (or exhaust) ducts to properly respond to cooling and heating loads, and the supply (or exhaust) ducts are mostly passive volumes in order to maintain a constant air volume for each air conditioning zone. A damper is installed. On the other hand, in the event of a fire, a volume damper for air conditioning and a fire extinguisher are installed in a separate air supply (or exhaust) duct or an air conditioning and ventilation air supply (or exhaust) duct to quickly discharge pollutants (smoke, etc.) from the fire area (room). Smoke dampers are installed adjacent to each other.

In the case of these air conditioning and ventilation air supply (or exhaust) ducts, the manually operated volume damper controls the supply (or exhaust) air volume in response to changes in the cooling and heating load or Indoor Air Quality (IAQ) of the corresponding air conditioning area. It is difficult to do this, and even if the smoke damper is opened by a signal from the fire receiver in case of a fire, the volume damper acts as a resistance to the flow of supply (or exhaust) air, so there is a problem in that pollutants (smoke, etc.) cannot be effectively discharged.

The conventional Korean Patent Publication No. 10-2087544 (March 10, 2020) 'volume damper for both air conditioning and ventilation' is installed in a duct that is used for both air conditioning and ventilation equipment, but manually adjusts the rotation angle of the damper blade. This provides a volume damper for air conditioning and ventilation that can achieve ventilation effect by forcibly rotating this damper blade through an actuator when ventilation is required, and controlling the air volume to achieve ventilation effect.

In the case of the volume damper for air conditioning and ventilation of the prior art, it has the advantage of being able to be used as a smoke control damper in case of fire. It is difficult to control the supply (or exhaust) air volume in response to changes in indoor air quality (IAQ), and to solve this problem, a separate control device must be installed.

Republic of Korea Patent Publication No. 10-2087544 (2020.03.10)

The present invention has been devised to solve the above problems, and an object of the present invention is to measure real-time OAQ (Outdoor Air Quality) and IAQ (Indoor Air Quality) concentrations indoors and outdoors (CO ₂ , CO, PM2.5, etc.) based on the IAQ concentration, proportionally control the air conditioner damper or the volume damper of the supply (or exhaust) duct according to the IAQ concentration An object of the present invention is to provide an active IAQ damper control device for both air conditioning and ventilation, and a control method therefor.

An active IAQ damper control system for air conditioning and ventilation in accordance with an embodiment of the present invention for achieving the above object is an IAQ sensor that measures IAQ (Indoor Air Quality) concentration, and is linked to the IAQ sensor based on the IAQ concentration A duct supply/exhaust damper that is proportionally controlled during air conditioning, a fire receiver that generates a signal when a fire occurs, a volume damper and smoke control damper of the duct that is connected to the fire receiver and operates in case of a fire, the supply/exhaust damper of the duct, the above A control device that proportionally controls the supply/exhaust damper of the duct according to the IAQ concentration measured by the IAQ sensor during air conditioning in conjunction with the volume damper and smoke control damper of the duct, and turns on/off the volume damper and smoke control damper of the duct in case of fire can be provided

An upper system for automatically controlling the control device may be connected to the control device, and a measurement sensor for measuring various data may be provided in the duct.

The control device includes a communication unit for wired/wireless communication with the upper system or the IAQ sensor, an input unit for receiving data measured from the measurement sensor in connection with the communication unit, and a target value for data measured from the measurement sensor in connection with the input unit and an output unit for comparing with, and an output unit for transmitting a signal selected according to the comparison value to the supply/exhaust damper of the duct or the volume damper and smoke control damper of the duct in connection with the operation unit.

The communication unit may transmit the duct pressure, temperature, CO concentration, and damper opening rate data directly collected from the input unit and the output unit to the upper system.

The calculator may compare data measured from the measurement sensor with a target value, transmit a proportional control signal to the input unit and the output unit during air conditioning, and transmit an on/off signal to the input unit and the output unit in case of fire.

The input unit and the output unit receive a proportional control signal from the operation unit during air conditioning and transmit it to the supply/exhaust damper of the duct, and receive the on/off signal from the operation unit in case of fire to the volume damper and smoke control damper of the duct.

On the other hand, the active IAQ damper control method for air conditioning and ventilation according to an embodiment of the present invention for achieving the above object is a first step of measuring the IAQ (Indoor Air Quality) concentration, and based on the measured IAQ concentration A second step of controlling the supply/exhaust damper of the duct, the volume damper and the smoke control damper of the duct through a control device, wherein the second step is to receive data measured from a measurement sensor provided in the duct through an input unit Comparing the data measured from the measurement sensor with a target value through an operation unit, and transmitting a signal selected according to the comparison value through an output unit to the supply/exhaust damper of the duct or the volume damper and smoke control damper of the duct can be provided.

The step of transmitting a signal selected according to the comparison value through the output unit to the supply/exhaust damper of the duct or the volume damper and smoke control damper of the duct includes transmitting a proportional control signal to the input unit and the output unit during air conditioning, and , in case of a fire, may include transmitting an on/off signal to the input unit and the output unit.

After transmitting the proportional control signal to the input unit and the output unit during the air conditioning, receiving the proportional control signal from the calculating unit and transmitting the proportional control signal to the supply/exhaust damper of the duct through the input unit and the output unit is provided, and the fire After the step of transmitting the on/off signal to the input unit and the output unit, receiving the on/off signal from the calculating unit and transmitting the on/off signal to the volume damper and the smoke control damper of the duct through the input unit and the output unit may be provided. have.

According to the active type IAQ damper control system for air conditioning and ventilation in accordance with the present invention and a damper control method using the same, real-time OAQ (Outdoor Air Quality) and IAQ (Indoor Air Quality) concentrations (CO ₂ , CO, PM2.5 measured indoors and outdoors) etc.), proportionally control the damper of the air conditioner or the volume damper of the supply (or exhaust) duct according to the IAQ concentration, and automatically switch to the smoke control mode in case of a fire. can control

1 and 2 are conceptual views showing an active IAQ damper control system for air conditioning and ventilation in accordance with an embodiment of the present invention.
3 and 4 are flowcharts showing an active IAQ damper control method for air conditioning and ventilation in accordance with an embodiment of the present invention.

Hereinafter, an active IAQ damper control system and a damper control method using the same for air conditioning and ventilation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are conceptual views illustrating an active IAQ damper control system for air conditioning and ventilation in accordance with an embodiment of the present invention.

1 and 2, the active IAQ damper control system 10 for air conditioning and ventilation according to an embodiment of the present invention is an IAQ sensor 100 for measuring IAQ (Indoor Air Quality) concentration, and IAQ In connection with the sensor 100, the supply/exhaust damper 200 of the duct that is proportionally controlled during air conditioning based on the IAQ concentration, the fire receiver 300 that generates a signal in case of a fire, and the fire receiver 300 are linked to the fire According to the IAQ concentration measured by the IAQ sensor 100 during air conditioning in connection with the volume damper and smoke control damper 400 of the duct, the supply/exhaust damper 200 of the duct, the volume damper and the smoke control damper 400 of the duct in operation, the duct A control device 500 for proportionally controlling the supply/exhaust damper 200 of the duct and on/off control of the volume damper and the smoke control damper 400 of the duct in case of fire may be provided.

In addition, the upper system 600 for automatically controlling the control device 500 is connected to the control device 500 , and a measurement sensor 700 for measuring various data such as temperature, pressure, and CO may be provided in the duct.

The control device 500 can control the supply/exhaust damper 200, the volume damper, and the smoke control damper 400 of the duct through wired/wireless communication with the control signal of the upper system 600, and the pressure sensor and CO installed in the duct Measurement values such as sensors (unsigned) can be directly received.

In addition, based on the fire signal calculated by comparing the smoke detection signal, the heat detection signal, or the separately measured CO concentration with the target value of the fire receiver 300, the smoke control damper 400 can be directly controlled or a fire alarm can be provided to the user. have.

To this end, the control device 500 includes a communication unit 510 for wired/wireless communication with the upper system 600 or the IAQ sensor 100 , and an input unit for receiving data measured from the measurement sensor 700 in connection with the communication unit 510 . 520 and the input unit 520, the operation unit 530 that compares the measured data from the measurement sensor 700 with the target value, and the operation unit 530 is connected with the selected signal according to the comparison value to supply and exhaust the duct It may include an output unit 540 that transmits the damper 200 or the volume damper of the duct and the smoke control damper 400 .

The communication unit 510 is applied with wired/wireless communication of RS485/Modus or power line communication (PLC) and wireless communication methods such as Wifi, Zigbee, Lora, etc. to perform wired/wireless communication with the upper system 600 or IAQ sensor 100, It may also serve to transmit data such as pressure, temperature, CO concentration, and damper opening rate of the duct directly collected by the input unit 520 and the output unit 540 to the upper system 600 .

The calculating unit 530 is linked with the input unit 520 and compares the data measured from the measurement sensor 700 with a target value, and then transmits a proportional control signal to the input unit 520 and the output unit 540 during air conditioning, and fire In this case, it may serve to transmit an on/off signal to the input unit 520 and the output unit 540 .

The input unit 520 and the output unit 540 receive the proportional control signal from the operation unit 530 during air conditioning and transmit it to the air supply/exhaust damper 200 of the duct, and receive the on/off signal from the operation unit 530 in case of fire of the duct. It may serve to transmit the volume damper and the smoke control damper 400 .

In this way, the active type IAQ damper control system 10 for air conditioning and ventilation is selectively and actively automatically according to the time of air conditioning and fire through the control device 500 duct supply/exhaust damper 200, volume damper and smoke control damper (400) can exhibit the effect of controlling.

Next, a method for controlling an active type IAQ damper for air conditioning and ventilation according to an embodiment of the present invention will be described. In the following description, only parts different from the above-described embodiments will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

3 and 4 are flowcharts illustrating a method for controlling an active type IAQ damper for air conditioning and ventilation according to an embodiment of the present invention.

1 to 4 , the active IAQ damper control method for air conditioning and ventilation according to an embodiment of the present invention includes a first step (S100) of measuring AQ (Indoor Air Quality) concentration, and the measured IAQ concentration. A second step (S200) of controlling the supply/exhaust damper 200 of the duct, the volume damper of the duct, and the smoke control damper 400 through the control device 500 may be provided based on the base.

And the second step (S200) is a step (S210) of receiving the measured data from the measurement sensor 700 provided in the duct through the input unit 520, and the measurement sensor 700 through the operation unit 530. Comparing the data with the target value (S220), and transmitting the signal selected according to the comparison value through the output unit 540 to the supply/exhaust damper 200 of the duct or the volume damper and smoke control damper 400 of the duct ( S230) may be provided.

Here, the step (S230) of transmitting the selected signal according to the comparison value through the output unit 540 to the supply/exhaust damper 200 of the duct or the volume damper and the smoke control damper 400 of the duct (S230) is a proportional control signal during air conditioning input unit A step (S231) of transmitting to the 520 and the output unit 540, and a step (S232) of transmitting an on/off signal to the input unit 520 and the output unit 540 in case of fire (S232) may be provided.

And after the step (S231) of transmitting the proportional control signal to the input unit 520 and the output unit 540 during air conditioning, the proportional control signal is received from the calculating unit 530 and the input unit 520 and the output unit 540 through the input unit 520 and the output unit 540 of the duct A step (S240) of transmitting the supply/exhaust damper 200 is provided, and after the step of transmitting the on/off signal to the input unit 520 and the output unit 540 in case of fire (S232), the on/off from the operation unit 530 is performed. A step (S250) of receiving the off signal and transmitting it to the volume damper and the smoke control damper 400 of the duct through the input unit 520 and the output unit 540 may be provided.

In the above, an active IAQ damper control system and a damper control method using the same for air conditioning and ventilation according to an embodiment of the present invention have been described, but the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily suggest other embodiments by addition, change, deletion, addition, etc. of components within the scope of the same spirit, but this is also said to be within the scope of the present invention. will be.

10: Active IAQ damper control system for air conditioning and ventilation
100: IAQ sensor 200: duct supply and exhaust damper
300: fire receiver 400: duct volume damper and smoke damper
500: control device 510: communication unit
520: input unit 530: calculation unit
540: output unit 600: upper system
700: measuring sensor

Claims (9)

An IAQ sensor that measures IAQ (Indoor Air Quality) concentration,
A duct supply/exhaust damper that is connected to the IAQ sensor and proportionally controlled during air conditioning based on the IAQ concentration;
A fire receiver that generates a signal in case of a fire;
A volume damper and a smoke control damper of the duct that are connected to the fire receiver and operate in case of a fire;
In connection with the supply/exhaust damper of the duct, the volume damper of the duct, and the smoke control damper, it proportionally controls the supply/exhaust damper of the duct according to the IAQ concentration measured by the IAQ sensor during air conditioning, and the volume damper and smoke control damper of the duct in case of fire Equipped with a control device to control on / off,
An upper system for automatically controlling the control device is connected to the control device, and a measurement sensor for measuring various data is provided in the duct,
The control device includes a communication unit for wired/wireless communication with the upper system or the IAQ sensor, an input unit for receiving data measured from the measurement sensor in connection with the communication unit, and a target value for data measured from the measurement sensor in connection with the input unit and an output unit for comparing with, and an output unit for transmitting a signal selected according to the comparison value in connection with the calculating unit to the supply/exhaust damper of the duct or the volume damper and smoke control damper of the duct,
The calculation unit compares the data measured from the measurement sensor with a target value, transmits a proportional control signal to the input unit and the output unit during air conditioning, and transmits an on/off signal to the input unit and the output unit in case of fire,
The input unit and the output unit receive a proportional control signal from the operation unit during air conditioning and transmit it to the air supply/exhaust damper of the duct, and receive the on/off signal from the operation unit in case of fire to deliver to the volume damper and smoke control damper of the duct An active IAQ damper control system for both air conditioning and ventilation.
delete delete The method of claim 1,
The communication unit transmits the duct pressure, temperature, CO concentration, and damper opening rate data directly collected from the input unit and the output unit to the upper system, an active IAQ damper control system for air conditioning and ventilation.
delete delete The first step of measuring the IAQ (Indoor Air Quality) concentration,
A second step of controlling the supply/exhaust damper of the duct, the volume damper of the duct, and the smoke control damper through a control device based on the measured IAQ concentration;
The second step includes receiving the measured data from the measuring sensor provided in the duct through the input unit, comparing the measured data from the measuring sensor with a target value through the calculating unit, and using the output unit according to the comparison value and transmitting the selected signal to the supply/exhaust damper of the duct or the volume damper and smoke control damper of the duct,
The step of transmitting a signal selected according to the comparison value through the output unit to the supply/exhaust damper of the duct or the volume damper and the smoke control damper of the duct includes transmitting a proportional control signal to the input unit and the output unit during air conditioning, and , comprising the step of transmitting an on/off signal to the input unit and the output unit in case of fire,
After transmitting the proportional control signal to the input unit and the output unit during the air conditioning, receiving the proportional control signal from the calculating unit and transmitting the proportional control signal to the supply/exhaust damper of the duct through the input unit and the output unit is provided, and the fire After the step of transmitting the on/off signal to the input unit and the output unit, the step of receiving the on/off signal from the calculating unit and transmitting the on/off signal to the volume damper and the smoke damper of the duct through the input unit and the output unit is provided An active IAQ damper control method for both air conditioning and ventilation, characterized. delete delete

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