KR102383990B1 - Control method of ventilation system for improving air quality and energy saving of heat recovery ventilation system - Google Patents

Abstract

The present invention relates to a ventilator control method for improving air quality and saving energy of a heat recovery ventilator, which comprises the steps of: sensing indoor and outdoor air conditions and temperatures; calculating an indoor air improvement predicting model; selecting and operating an operation mode of a ventilator; and maintaining the indoor air condition and temperature within a set value.

Description

Control method of ventilation system for improving air quality and energy saving of heat recovery ventilation system {Control method of ventilation system for improving air quality and energy saving of heat recovery ventilation system}

The present invention relates to a ventilation device control method for improving air quality and saving energy in a heat recovery ventilation device, and more particularly, predicts the operation mode of the ventilation device through a detection value of the sensor unit in advance and applies it through the control unit to operate the ventilation device Therefore, it is possible to increase the energy saving efficiency according to the operation, and by calculating the predictive model according to the situation in real time and applying it to the ventilation system and operating it, it is possible to automatically adjust the indoor air to the desired state and temperature, and the operation of the ventilation system Real-time control by subdividing the mode reduces unnecessary operation, and by using an open/closeable outdoor air filter and an air filter, air is filtered only when necessary, so the service life of the filter can be increased and energy reduction efficiency It relates to a ventilation system control method for improving air quality and energy saving of a heat recovery ventilation system, which displays it compared to the case where it is not operated through a predictive model through the terminal unit, so that the user can easily check the energy saving efficiency.

In general, a ventilation device for ventilating air is installed in a building.

These ventilation devices ventilate by forcibly exchanging indoor air and outdoor air by means of a blower fan. There was a problem that the cooling and heating efficiency was lowered.

In addition, most of the modes applied to the heat exchange type air purifying ventilator used in the past were given a function to control the fan operation speed, that is, the intensity of the ventilation degree.

However, in the case of a ventilation system that adjusts the ventilation rate, there is a problem in that the ventilation system mode is manually set and operated according to the degree determined by the occupants without considering the conditions of occupants, indoor air quality, and outdoor air quality.

If the ventilation system is manually adjusted, the indoor air quality cannot be taken into consideration, so the indoor fine dust concentration can be increased, and the indoor carbon dioxide concentration is high. It had the disadvantage of adversely affecting respiratory health.

As described above, since the conventional ventilation system is controlled and operated by the occupant's manual mode, it is very difficult to improve the indoor air quality. There was a problem in that the energy cost greatly increased due to excessive use.

The prior patent includes the steps of measuring the degree of pollution of indoor air, and determining whether to ventilate according to the measured degree of pollution of the indoor air; and when the indoor air pollution degree satisfies the ventilation setting criteria, it is determined whether outdoor air cooling is possible according to the first outdoor air cooling condition. When the first outdoor air cooling condition is satisfied, the operation is performed in the outdoor air cooling mode, When the cooling condition is not satisfied, the operation is performed in the total heat exchange mode, and when the pollution degree of the indoor air does not satisfy the ventilation setting standard, the outdoor air cooling setting range is higher than the first outdoor air cooling condition to suppress unnecessary outdoor air cooling. It is determined whether outdoor air cooling is possible according to the reduced second outdoor air cooling condition. If the second outdoor air cooling condition is satisfied, the operation is performed in the outdoor air cooling mode. If the second outdoor air cooling condition is not satisfied, ventilation of the ventilation system A configuration including a ventilator operation determination step of turning off the power of the device is described.

However, the prior patent cannot control the operation of the ventilation device in real time by sensing the air condition and temperature inside and outside the room. There is this.

Prior Patent: Korean Patent Publication No. 10-1221240 (2013.01.04.)

The present invention predicts the operation mode of the ventilation device through the detection value of the sensor unit in advance and applies it through the control unit to operate the ventilation device, so it is possible to increase the energy saving efficiency according to the operation, and calculate a predictive model according to the situation in real time By applying to the ventilation system and operating it, the indoor air can be automatically adjusted to the desired state and temperature, and the operation mode of the ventilation system is subdivided and controlled in real time to reduce unnecessary operation Since the air is filtered with the filter only when necessary, the service life of the filter can be increased, and the energy reduction efficiency is displayed compared to the case where it is not operated through the predictive model through the terminal, so that the user can save energy The purpose of the present invention is to provide a ventilation system control method for improving the air quality of the heat recovery ventilation system and saving energy.

A ventilation device control method for improving air quality and saving energy of a heat recovery ventilation device according to the present invention for achieving the above object includes the steps of detecting indoor and outdoor air conditions and temperature through a sensor unit formed indoors and outdoors of a building ; calculating an indoor air improvement prediction model by the controller based on the sensed air condition and temperature sensed values; calculating, in the control unit, an operation mode of the ventilation device according to the calculated prediction model; selecting and operating an operation mode of the ventilation device by the control unit according to the calculated operation mode; detecting the condition and temperature of indoor and outdoor air according to the operated ventilation device through a sensor unit to determine whether the air condition value is less than or equal to the air condition value set in the control unit and whether the temperature is within a set range; and maintaining the indoor air condition and temperature within a set value with a ventilation device operated through a control signal of the control unit.

The ventilation device may include: an intake fan for sucking outside air and introducing it into the ventilation device; an outdoor air filter that filters the outdoor air and is opened or blocked through a control signal of a control unit to selectively filter; a circulation fan formed inside the ventilation device to circulate air inside the ventilation device; a bet filter formed in a damper on the circulation path of the circulation fan to filter or pass air flowing through the circulation fan through opening and closing the circulation path; an exhaust fan for discharging indoor air flowing into the ventilation device through the circulation fan to the outside; a flow fan for flowing air circulated through the circulation fan or external air introduced through the intake fan into the room; A sensor unit that is formed indoors and outdoors of the building to detect the condition and temperature of air, and a control unit that controls the operation of the intake fan, outdoor air filter, circulation fan, bet filter, exhaust fan, and flow fan through the sensing value of the sensor unit. characterized by including.

The operation mode for operating the ventilation device in the control unit is an EC ventilation mode in which cool external air is introduced through the intake fan to reduce enthalpy of the room, and clean air outside the room and air are exchanged through the intake fan. IAQ ventilation mode to replace the indoor air, when the outdoor air quality sensed through the sensor unit is higher than the air quality set in the control unit, and the indoor CO ₂ concentration is less than or equal to the reference value set in the control unit Circulation that circulates the indoor air Ventilation mode, a heat exchange mode in which heat exchange between the outside air flowing in through the intake fan and the betting air circulated through the circulation fan is made so that the enthalpy of the room sensed through the sensor unit is maintained within the allowable range of the indoor reference value set in the control unit; In the circulation ventilation mode, the indoor air filter mode filters the circulated internal air by blocking the circulation path through the internal filter, and the outdoor air filters the external air by blocking the inlet of the external air sucked through the intake fan through the external filter. It is characterized in that it comprises a filter mode.

In the step of calculating the indoor air improvement prediction model, the real-time prediction model calculated by the control unit through the real-time detection value detected through the sensor unit is continuously accumulated and stored in the DB server connected to the control unit, and the control unit is stored in the DB server It is characterized in that the operation mode of the ventilation system is changed and applied by calculating in real time the energy saving potential based on temperature and humidity conditions, thermal performance information, and fixed pressure conditions through accumulated data.

The step of calculating the indoor air improvement prediction model is a machine learning model (SVM, RF, GBM, XGB) based on the detected value measured indoors through the sensor unit to calculate a machine learning-based prediction model through deep learning in the control unit. characterized in that

Through the step of selecting and operating the operation mode of the ventilation device, the energy efficiency information according to the operation of the ventilation device is transmitted from the control unit to the user's terminal through communication, and the energy saved can be checked in real time, daily, weekly basis, It is characterized in that the user can check through the terminal unit by comparing the non-applied predicted energy efficiency information when the operation mode is not applied to the ventilation device.

The present invention predicts the operation mode of the ventilation device through the detection value of the sensor unit in advance and applies it through the control unit to operate the ventilation device, thereby increasing the energy saving efficiency according to the operation.

In addition, since the predictive model according to the situation is calculated in real time and applied to the ventilation device to be operated, there is an effect that the indoor air can be automatically adjusted to the correct state and temperature.

In addition, the operation mode of the ventilation system is subdivided and controlled in real time to reduce unnecessary operation, and by using an openable and openable outdoor air filter and an air filter, the air is filtered only as necessary, so that the service life of the filter can be increased. can have an effect.

In addition, since the energy reduction efficiency is displayed compared to the case of not operating through the predictive model through the terminal unit, there is an effect that the user can easily check the energy saving efficiency.

1 is a view showing the overall sequence of a ventilation device control method for improving air quality and saving energy of a heat recovery ventilation device according to an embodiment of the present invention.
2 is a view showing an operation mode of the ventilation apparatus of the ventilation apparatus control method for improving air quality and saving energy of the heat recovery ventilation apparatus according to the present invention.
3 is a diagram illustrating an operation mode in which the heat recovery ventilation device operates in 16 subdivided cases of the ventilation device control method for improving air quality and saving energy of the heat recovery ventilation device according to the present invention.
4 is a view showing the operation flow of the subdivided operation mode of the ventilation apparatus control method for air quality improvement and energy saving of the heat recovery ventilation apparatus according to the present invention.
5 and 6 are views showing the energy saving potential and indoor air quality class when the algorithm is applied and not applied to the ventilation device control method for improving air quality and saving energy of the heat recovery ventilation device according to the present invention.
7 is a view showing daily and weekly thermal part analysis of the web analysis category of the ventilation device control method for improving air quality and saving energy of the heat recovery ventilation device according to the present invention.
8 is a view showing daily and weekly IAQ part analysis of the web analysis category of the ventilation device control method for air quality improvement and energy saving of the heat recovery ventilation device according to the present invention.
9 is a view showing daily and weekly energy part analysis of the web analysis category of the ventilation device control method for air quality improvement and energy saving of the heat recovery ventilation device according to the present invention.

Hereinafter, specific embodiments for carrying out the present invention will be described with reference to the drawings. The embodiment of the present invention is intended to explain one invention, and the scope of rights is not limited to the illustrated embodiment, and the illustrated drawings are limited to the drawings because only the essential content is enlarged and illustrated for clarity of the invention and incidental elements are omitted should not be interpreted as such.

The present invention includes the steps of detecting indoor and outdoor air conditions and temperatures through a sensor unit formed in the indoor and outdoor areas of a building (S10); calculating an indoor air improvement prediction model by the control unit based on the sensed air condition and temperature detection value (S20); Calculating the operation mode of the ventilation device according to the calculated prediction model in the control unit (S30); Selecting and operating the operation mode of the ventilation device in the control unit according to the calculated operation mode (S40); a step (S50) of detecting the state and temperature of indoor and outdoor air according to the operated ventilation device through a sensor unit to determine whether or not the air state value is less than or equal to the air state value set in the control unit and whether the temperature is within a set range (S50); It characterized in that it comprises the step (S60) of maintaining the indoor air condition and temperature within the set value with the ventilation device operated through the control signal of the control unit.

The ventilation device may include: an intake fan for sucking outside air and introducing it into the ventilation device; an outdoor air filter that filters the outdoor air and is opened or blocked through a control signal of a control unit to selectively filter; a circulation fan formed inside the ventilation device to circulate air inside the ventilation device; a bet filter formed in a damper on the circulation path of the circulation fan to filter or pass air flowing through the circulation fan through opening and closing the circulation path; an exhaust fan for discharging indoor air flowing into the ventilation device through the circulation fan to the outside; a flow fan for flowing air circulated through the circulation fan or external air introduced through the intake fan into the room; A sensor unit that is formed indoors and outdoors of the building to detect the condition and temperature of air, and a control unit that controls the operation of the intake fan, outdoor air filter, circulation fan, bet filter, exhaust fan, and flow fan through the sensing value of the sensor unit. characterized by including.

The operation mode for operating the ventilation device in the control unit is an EC ventilation mode in which cool external air is introduced through the intake fan to reduce enthalpy of the room, and clean air outside the room and air are exchanged through the intake fan. IAQ ventilation mode to replace the indoor air, when the outdoor air quality sensed through the sensor unit is higher than the air quality set in the control unit, and the indoor CO ₂ concentration is less than or equal to the reference value set in the control unit Circulation that circulates the indoor air Ventilation mode, a heat exchange mode in which heat exchange between the outside air flowing in through the intake fan and the betting air circulated through the circulation fan is made so that the enthalpy of the room sensed through the sensor unit is maintained within the allowable range of the indoor reference value set in the control unit; In the circulation ventilation mode, the indoor air filter mode filters the circulated internal air by blocking the circulation path through the internal filter, and the outdoor air filters the external air by blocking the inlet of the external air sucked through the intake fan through the external filter. It is characterized in that it comprises a filter mode.

In the step (S20) of calculating the indoor air improvement prediction model, the real-time prediction model calculated by the control unit through the real-time detection value detected through the sensor unit is continuously accumulated and stored in a DB server connected to the control unit, and the control unit DB server It is characterized in that the operation mode of the ventilation system is changed and applied by calculating in real time the energy saving potential based on temperature and humidity conditions, thermal performance information, and fixed pressure conditions through the accumulated data stored in the system.

The step (S20) of calculating the indoor air improvement prediction model is a machine learning-based prediction model through deep learning in the control unit using a machine learning model (SVM, RF, GBM, XGB) based on the detected value measured indoors through the sensor unit. It is characterized in that it is calculated.

Through the step (S40) of selecting and operating the operation mode of the ventilation apparatus, the energy efficiency information according to the operation of the ventilation apparatus is transmitted from the control unit to the user's terminal through communication to check the energy saved in real time, daily, weekly basis. It is characterized in that the user can check through the terminal unit by comparing it with the predicted energy efficiency information not applied when the operation mode is not applied to the ventilation device.

1 is a view showing the overall sequence of a ventilation device control method for improving air quality and saving energy of a heat recovery ventilation device according to an embodiment of the present invention. Detecting the condition and temperature (S10), calculating the indoor air improvement prediction model in the control unit through the sensed air condition and temperature detection value (S20), the operation mode of the ventilation device according to the calculated prediction model in the control unit Calculating (S30), selecting and operating the operation mode of the ventilation device in the control unit according to the calculated operation mode (S40), detecting the condition and temperature of indoor and outdoor air according to the operated ventilation device through the sensor unit A step of checking whether the air condition value set in the control unit is below the air condition value and whether the temperature is within the set range (S50), maintaining the indoor air condition and temperature within the set value with the ventilation device operated through the control signal of the control unit (S60).

2 is a view showing an operation mode of the ventilation apparatus of the ventilation apparatus control method for improving air quality and saving energy of the heat recovery ventilation apparatus according to the present invention.

3 is a diagram illustrating an operation mode in which the heat recovery ventilation device operates in 16 subdivided cases of the ventilation device control method for improving air quality and saving energy of the heat recovery ventilation device according to the present invention.

4 is a view showing the operation flow of the subdivided operation mode of the ventilation apparatus control method for air quality improvement and energy saving of the heat recovery ventilation apparatus according to the present invention.

5 and 6 are diagrams showing the energy saving potential and indoor air quality class when the algorithm is applied and not applied to the ventilation device control method for air quality improvement and energy saving of the heat recovery ventilation device according to the present invention.

7 is a view showing daily and weekly thermal part analysis of the web analysis category of the ventilation device control method for improving air quality and saving energy of the heat recovery ventilation device according to the present invention.

8 is a view showing daily and weekly IAQ part analysis of the web analysis category of the ventilation device control method for air quality improvement and energy saving of the heat recovery ventilation device according to the present invention.

9 is a view showing daily and weekly energy part analysis of the web analysis category of the ventilation device control method for air quality improvement and energy saving of the heat recovery ventilation device according to the present invention.

1 to 4, the step of detecting the indoor and outdoor air condition and temperature (S10) is to detect the indoor and outdoor air condition and temperature through the sensor unit formed in the outdoor and indoor of the building to the control unit. will send

At this time, the sensor unit may include a temperature sensor for detecting the temperature of indoor and outdoor air, a humidity sensor for detecting humidity, a dust sensor for detecting the concentration of fine dust, or a CO ₂ sensor for detecting the concentration of CO ₂ .

In addition to the sensor unit, an oxygen concentration sensor, a gas sensor, or a smoke sensor may be further provided to detect the state of the air.

When indoor and outdoor air conditions and temperatures are sensed through the step (S10) of detecting the indoor and outdoor air conditions and temperatures, the air conditions and temperatures detected through the step (S20) of calculating an indoor air improvement prediction model Based on the detected value, the control unit calculates an indoor air improvement prediction model.

In the step (S20) of calculating the indoor air improvement prediction model, the real-time prediction model calculated by the control unit through the real-time detection value detected through the sensor unit is continuously accumulated and stored in a DB server connected to the control unit, and the control unit DB Through the accumulated data stored in the server, the energy saving potential based on temperature and humidity conditions, thermal performance information, and fixed pressure conditions is calculated in real time, and the operation mode of the ventilation system is changed and applied.

At this time, in the step (S20) of calculating the indoor air improvement prediction model, the energy saving potential is calculated based on the temperature and humidity conditions, thermal performance information, and a fixed pressure condition by the ISO 16494 method.

And, in the step of calculating the indoor air improvement prediction model (S20), the machine learning model (SVM, RF, GBM, XGB) based on the sensed value measured indoors through the sensor unit is performed by the control unit through deep learning. to produce a predictive model.

The prediction model is calculated using a heuristic control algorithm. At this time, the machine learning model (XGB) is applied based on the data actually measured through the sensor unit in the indoor space to show the indoor air quality improvement results, and the prediction model is applied. It indicates that it is possible to maintain more optimal indoor air quality than when not applied.

When the control unit calculates the indoor air improvement prediction model through the step (S20) of calculating the indoor air improvement prediction model, the operation of the ventilation device according to the prediction model calculated through the step (S30) of calculating the operation mode in the control unit The mode is calculated by the control unit.

At this time, the control unit calculates the operation mode of the ventilation device in real time through the calculated prediction model and the indoor and outdoor air conditions and temperatures detected through the sensor unit.

The ventilation device includes an intake fan that sucks in outside air and introduces it into the ventilation device, an outside air filter that filters outside air, and is opened or blocked through a control signal from a control unit to selectively filter, and is formed inside the ventilation device to form a ventilation device A circulation fan that circulates the internal air, a bet filter that filters or passes air that is formed in the damper on the circulation path of the circulation fan and flows through the circulation fan by opening and closing the circulation path, and indoors flowing into the ventilation system through the circulation fan. An exhaust fan that exhausts air to the outside, a flow fan that flows air circulated through the circulation fan or external air introduced through an intake fan into the room, and a sensor unit that is formed inside and outside the building to detect the condition and temperature of the air and a control unit for controlling the operation of the intake fan, the outdoor air filter, the circulation fan, the bet filter, the exhaust fan, and the flow fan through the sensing value of the sensor unit.

The intake fan is formed outside the ventilation device and sucks outside air for internal air circulation when the indoor air condition detected by the sensor unit is above the temperature range set in the control unit or the concentration of CO ₂ in the air is high. flow inward.

An outdoor air filter for filtering the incoming external air is formed at the inlet where the intake fan is formed, and this outdoor air filter is formed to open and close the inlet by sliding or rotating through a driving motor.

The circulation fan is formed on a connection pipe connected to the room to flow the air in the room to the inside of the ventilation device.

The bet filter is formed on the circulation path of the circulation fan to filter the air introduced into the ventilation device through the circulation fan, and opens and closes the circulation path by sliding or rotating through the drive motor to filter or filter the flowing indoor air can be cycled

An exhaust fan formed outside the ventilation device discharges the air flowing into the ventilation device to the outside.

The flow fan introduces air introduced from the outside or circulated in the room through an intake fan and a circulation fan into the room to circulate the indoor air and control the temperature.

If the operation mode of the ventilation device is calculated through the step (S30) of calculating the operation mode in the control unit, the control unit selects the operation mode of the ventilation device and operates the ventilation device through the step (S40) of selecting and operating the operation mode of the ventilation device will make it

The operation mode of the ventilation device is an EC ventilation mode that reduces indoor enthalpy by introducing cool external air through an intake fan, and replaces indoor air by exchanging indoor air with external clean air through an intake fan. IAQ ventilation mode, a circulation ventilation mode that circulates indoor air when the outdoor air quality detected by the sensor unit is higher than the air quality set in the control unit and the indoor CO ₂ concentration is below the reference value set in the control unit, detected through the sensor unit A heat exchange mode that allows heat exchange between the outside air flowing in through the intake fan and the bet air circulated through the circulation fan so that the enthalpy of the indoor room is maintained within the allowable range of the indoor standard value set in the control unit. It includes an indoor air filter mode for filtering the circulated internal air by blocking the circulation path and an outdoor air filter mode for filtering external air by blocking the inlet of the external air sucked through the intake fan through the external filter.

The operation mode of the ventilation device is divided into 16 cases according to conditions, which will be described as follows.

At this time, the state and temperature of the outdoor air and the indoor air are sensed through the sensor unit, and the operation mode is changed according to the detected value.

First, the first control controlled by the controller is that the indoor enthalpy is higher than the outdoor enthalpy, the indoor CO ₂ concentration is higher than the outdoor CO ₂ concentration, and the indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) When the concentration is higher than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is higher than the 75% level of the highest standard fine dust (PM: 2.5,10), the IAQ ventilation mode is activated and At the same time, by operating the outdoor air filter mode, the outdoor air filter is operated to filter the outside air flowing in through the intake fan and introduce it into the room.

This reduces the enthalpy of indoor air in the filtered outdoor air.

And, secondly, the indoor enthalpy is higher than the outdoor enthalpy, the indoor CO ₂ concentration is higher than the outdoor CO ₂ concentration, and the indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration When the outdoor fine dust (PM: 2.5,10) concentration is higher than the highest standard of This reduces the enthalpy of indoor air.

As a result, clean outdoor air is introduced into the room and the indoor air is discharged to reduce indoor CO2 and indoor fine dust (PM) concentrations, and indoor enthalpy is also reduced.

Also, in the third case, the indoor enthalpy is higher than the outdoor enthalpy, the indoor CO ₂ concentration is higher than the outdoor CO ₂ concentration, and the indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration. If it is lower than the maximum standard of By operating the outdoor air filter mode, the outdoor air filter is operated to filter the outside air flowing in through the intake fan and introduce it into the room to replace the indoor air.

For this reason, outdoor air is filtered through outdoor air filter through IAQ ventilation mode and EC ventilation mode and introduced into the room, and at the same time, indoor air and outdoor air are exchanged to reduce indoor CO2 concentration and reduce indoor enthalpy.

And fourth, indoor enthalpy is higher than outdoor enthalpy, indoor CO ₂ concentration is higher than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration If it is lower than the maximum standard of By operating the outdoor air filter mode, the outdoor air filter is operated to filter the outside air flowing in through the intake fan and introduce it into the room to replace the indoor air.

For this reason, the outdoor air flowing into the cooling device is introduced into the room and the indoor air is discharged to the outside to exchange the indoor air, thereby reducing the indoor CO2 concentration and reducing the indoor enthalpy.

Also, in the fifth, indoor enthalpy is higher _than outdoor enthalpy, indoor CO2 concentration is lower _than outdoor CO2 concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10). The EC ventilation mode and IAQ ventilation mode are activated and At the same time, by operating the outdoor air filter mode, the outdoor air filter is operated to filter the outside air flowing in through the intake fan and introduce it into the room to replace the indoor air.

As a result, the outdoor air is filtered through the external filter and flows into the room, and the indoor air is discharged to the outside to replace the indoor air, thereby reducing the indoor CO2 concentration and reducing the indoor enthalpy.

And, in the 6th, indoor enthalpy is higher than outdoor enthalpy, indoor CO ₂ concentration is lower than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) If the concentration is higher than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is lower than 75% of the highest standard fine dust (PM: 2.5,10) concentration, the EC ventilation mode and IAQ ventilation mode are activated to activate the intake fan. The indoor air is replaced by introducing the outside air flowing in through the indoor air.

Also, in the 7th, indoor enthalpy is higher than outdoor enthalpy, indoor CO ₂ concentration is lower than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10). If the concentration is lower than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is higher than 75% of the highest standard fine dust (PM: 2.5,10) concentration, the EC ventilation mode and outdoor air filter mode are activated. The outdoor air flowing in through the intake fan is filtered and introduced into the room to circulate the indoor air.

In this case, it is also possible that the user does not operate the outdoor air filter mode set in the control unit, thereby allowing unfiltered outdoor air to flow into the room to replace the indoor air.

And, in the 8th, indoor enthalpy is higher than outdoor enthalpy, indoor CO ₂ concentration is lower than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) When the concentration is lower than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is lower than 75% of the highest standard fine dust (PM: 2.5,10) concentration, the EC ventilation mode is activated and the The outside air is introduced into the room to circulate the indoor air.

Also, in the ninth, indoor enthalpy is lower than outdoor enthalpy, indoor CO ₂ concentration is higher than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration. IAQ ventilation mode, heat exchange mode, and outdoor air filter mode when the outdoor fine dust (PM: 2.5,10) concentration is higher than the highest standard of It works to filter the outside air flowing in through the intake fan, heat exchange between the indoor air and outdoor air in the ventilation device, and introduce it into the room, thereby increasing the enthalpy of the indoor air and allowing the indoor air to circulate.

And, in the tenth, the indoor enthalpy is lower than the outdoor enthalpy, the indoor CO ₂ concentration is higher than the outdoor CO ₂ concentration, and the indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration When the outdoor fine dust (PM: 2.5,10) concentration is lower than the 75% level of the highest standard fine dust (PM: 2.5,10) concentration, the The incoming outdoor air and indoor air are heat-exchanged in the ventilator to flow into the room, increasing the enthalpy of the indoor air and allowing the indoor air to circulate.

In the 11th, indoor enthalpy is lower than outdoor enthalpy, indoor CO ₂ concentration is higher than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration IAQ ventilation mode, heat exchange mode and outdoor air filter mode when the outdoor fine dust (PM: 2.5,10) concentration is lower than the highest standard of It works to filter the outside air flowing in through the intake fan, heat exchange between the indoor air and outdoor air in the ventilation device, and introduce it into the room, thereby increasing the enthalpy of the indoor air and allowing the indoor air to circulate.

And, in the 12th, indoor enthalpy is lower than outdoor enthalpy, indoor CO ₂ concentration is higher than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) concentration When the outdoor fine dust (PM: 2.5,10) concentration is lower than the highest standard of The incoming outdoor air and indoor air are heat-exchanged in the ventilator to flow into the room, increasing the enthalpy of the indoor air and allowing the indoor air to circulate.

Also, in the 13th, indoor enthalpy is lower than outdoor enthalpy, indoor CO ₂ concentration is lower than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) If the concentration is higher than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is higher than 75% of the highest standard fine dust (PM: 2.5,10) concentration, the circulation ventilation mode and indoor air filter mode are activated. The indoor air circulated through the circulation fan is filtered and circulated into the room.

And, in the 14th, the indoor enthalpy is lower than the outdoor enthalpy, the indoor CO ₂ concentration is lower than the outdoor CO ₂ concentration, and the indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) When the concentration is higher than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is lower than 75% of the highest standard fine dust (PM: 2.5,10) concentration, the IAQ ventilation mode and heat exchange mode are activated to turn off the intake fan. It heats the outdoor air and indoor air flowing in through the ventilation system and introduces it into the room, increasing the enthalpy of the indoor air and allowing the indoor air to circulate.

Also, in the 15th case, the indoor enthalpy is lower than the outdoor enthalpy, the indoor CO ₂ concentration is lower than the outdoor CO ₂ concentration, and the indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10). ) is lower than the highest standard of concentration and the outdoor fine dust (PM: 2.5,10) concentration is higher than 75% of the highest standard fine dust (PM: 2.5,10) concentration, only the internal air is will be cycled

And, in the 16th, indoor enthalpy is lower than outdoor enthalpy, indoor CO ₂ concentration is lower than outdoor CO ₂ concentration, and indoor fine dust concentration (PM: 2.5,10) is the highest standard fine dust (PM: 2.5,10) If the concentration is lower than the highest standard and the outdoor fine dust (PM: 2.5,10) concentration is lower than 75% of the highest standard fine dust (PM: 2.5,10) concentration, only the internal air is circulated through the circulation fan and flow fan. will make it

In the step (S40) of selecting and operating the operation mode of the ventilation device, the energy efficiency information according to the operation of the ventilation device is transmitted from the control unit to the user's terminal unit through communication, and the energy saved is transmitted in real time, daily, weekly basis. It can be checked, and the user can check it through the terminal unit by comparing it with the predicted energy efficiency information that is not applied when the operation mode is not applied to the ventilation device.

At this time, the criterion for evaluating the indoor air condition in the control unit consists of the values in Table 1 below.

division sensor# unit good usually bad very bad PM2.5 #4 (ug/m3) 0 to less than 15 15 to less than 35 35 to less than 75 75 or more PM10 #4 (ug/m3) 0 to less than 30 30 to less than 80 80 to less than 150 150 or more CO2 #4 (ppm) 0 to less than 700 700 to less than 1,000 1,000 to less than 1,500 1,500 or more temperature #2 (℃) 18 to less than 25 15 to less than 1823 to less than 28 9 to less than 15
28 to less than 34 less than 9
34 or more humidity #2 (RH%) 40 to less than 50 20 to less than 40
50 to less than 65 15 to less than 20
65 to less than 80 less than 15
80 or more

As shown in Table 1 above, conditions for fine dust concentration, CO ₂ concentration, temperature, and humidity are shown, and the control unit sets the conditions of Table 1 as default settings, and the fine dust concentration, CO ₂ concentration, and temperature detected by the sensor unit And the ventilation device is operated for each mode through humidity. When the control unit selects and operates the operation mode of the ventilation device according to the operation mode calculated through the step (S40) of selecting and operating the operation mode of the ventilation device, the setting The state and temperature of indoor and outdoor air according to the ventilation device operated through the step (S50) of checking whether the will check whether

When it is checked whether or not the air condition value set in the control unit is less than or equal to the air state value set in the control unit and whether the temperature is within the setting range through the step (S50) of checking whether it is within the setting range, maintaining the temperature within the setting value through the step (S60) of the control unit It is a ventilation device operated through a control signal to maintain the indoor air condition and temperature within the set value.

The effectiveness of the invention was proved based on the results of comparison and analysis of the application and non-application of the algorithm to the terminal communicating with the control unit, and the degree of improvement of indoor air quality through a web page to occupants of a space equipped with a ventilation device in real-time, daily, and weekly units And by showing the amount of energy saving, the effect is maximized, and the effect of applying the algorithm is as shown in FIGS. 5 and 6 .

As shown in FIGS. 5 and 6 , the Current Indoor environment item in the motherboard category displayed on the terminal shows real-time measured air quality in the indoor environment, and shows Very bad, Bad, Normal. , Good is classified into four levels.

In the Optimum indoor environment with heuristic control item, the air quality evaluation level considering the possibility of indoor air quality improvement when applying the algorithm is shown, and the reduced energy consumption and reduction rate are indicated.

7 to 10, in the analysis category, charts are provided so that the real-time indoor air quality improvement and energy saving rate can be effectively checked through an algorithm for each day and week. The chart is divided into Thermal, IAQ, and Energy parts so that indoor space users can easily check the improvement effect.

For all graphs inserted into the corresponding web application displayed on the terminal, detailed measurement and prediction values can be checked by moving the mouse cursor over the graph as shown in FIG.

)을 클릭하면 데이터를 CSV, XLS파일로 저장할 수 있고 그래프를 이미지파일로 저장할 수 있는 기능을 제공한다. Also, click the menu button (

), data can be saved as CSV or XLS files, and graphs can be saved as image files.

This web application maintains the security of the web application by adding and modifying users directly by the administrator.

The present invention made in this way predicts the operation mode of the ventilation device through the detection value of the sensor unit in advance and applies it through the control unit to operate the ventilation device, thereby increasing the energy saving efficiency according to the operation.

In addition, since the predictive model according to the situation is calculated in real time and applied to the ventilation device to be operated, there is an effect that the indoor air can be automatically adjusted to a stable state and temperature.

In addition, the operation mode of the ventilation system is subdivided and controlled in real time to reduce unnecessary operation, and by using an openable and openable outdoor air filter and an air filter, the air is filtered only as necessary, so that the service life of the filter can be increased. can have an effect.

In addition, since the energy reduction efficiency is displayed in comparison with the case of not operating through the predictive model through the terminal unit, there is an effect that the user can easily check the energy saving efficiency.

The ventilation apparatus control method for improving air quality and saving energy of the heat recovery ventilation apparatus as described above is not limited to the configuration and operation method of the above-described embodiments. The above embodiments may be configured so that various modifications can be made by selectively combining all or part of each of the embodiments.

Claims (6)

Sensing the indoor and outdoor air condition and temperature through the sensor unit formed in the indoor and outdoor of the building (S10);
calculating an indoor air improvement prediction model by the control unit based on the sensed air condition and temperature detection value (S20);
Calculating the operation mode of the ventilation device according to the calculated prediction model in the control unit (S30);
Selecting and operating the operation mode of the ventilation device in the control unit according to the calculated operation mode (S40);
a step (S50) of detecting the state and temperature of indoor and outdoor air according to the operated ventilation device through a sensor unit to determine whether or not the air condition value set in the control unit is less than or equal to the air condition value and whether the temperature is within a set range (S50);
Including the step (S60) of maintaining the indoor air condition and temperature within the set values with the ventilation device operated through the control signal of the control unit,
The ventilation device may include: an intake fan for sucking outside air and introducing it into the ventilation device; an outdoor air filter configured to filter the outdoor air and selectively filter by being opened or blocked through a control signal of a control unit; a circulation fan formed inside the ventilation device to circulate air inside the ventilation device; a bet filter formed in a damper on the circulation path of the circulation fan to filter or pass air flowing through the circulation fan through opening and closing the circulation path; an exhaust fan for discharging indoor air flowing into the ventilation device through the circulation fan to the outside; a flow fan for flowing air circulated through the circulation fan or external air introduced through the intake fan into the room; A sensor unit that is formed indoors and outdoors of the building to detect the condition and temperature of air, and a control unit that controls the operation of the intake fan, outdoor air filter, circulation fan, bet filter, exhaust fan, and flow fan through the sensing value of the sensor unit. including,
The operation mode for operating the ventilation device in the control unit is an EC ventilation mode in which cool external air is introduced through the intake fan to reduce enthalpy of the room, and clean air outside the room and air are exchanged through the intake fan. IAQ ventilation mode to replace the indoor air, when the outdoor air quality sensed through the sensor unit is higher than the air quality set in the control unit, and the indoor CO ₂ concentration is less than or equal to the reference value set in the control unit Circulation that circulates the indoor air Ventilation mode, a heat exchange mode in which heat exchange between the outside air flowing in through the intake fan and the betting air circulated through the circulation fan is made so that the enthalpy of the room sensed through the sensor unit is maintained within the allowable range of the indoor reference value set in the control unit; In the circulation ventilation mode, the indoor air filter mode filters the circulated internal air by blocking the circulation path through the internal filter, and the outdoor air filters the external air by blocking the inlet of the external air sucked through the intake fan through the external filter. It is made including filter mode,
The step of calculating the indoor air improvement prediction model (S20) is to continuously accumulate the real-time prediction model calculated by the control unit through the real-time detection value detected through the sensor unit and store it in a DB server connected to the control unit, and the control unit to the DB server Heat recovery ventilation system, characterized in that the energy saving potential based on temperature and humidity conditions, thermal performance information, and fixed pressure conditions is calculated in real time through the accumulated data stored in the Ventilation control method for air quality improvement and energy saving.
delete delete delete delete According to claim 1,
Through the step (S40) of selecting and operating the operation mode of the ventilation apparatus, the energy efficiency information according to the operation of the ventilation apparatus is transmitted from the control unit to the user's terminal through communication to check the energy saved in real time, daily, weekly basis. can,
A method of controlling a ventilation device for improving air quality and saving energy of a heat recovery ventilation device, characterized in that the user can check it through a terminal unit by comparing it with the predicted energy efficiency information not applied when the operation mode is not applied to the ventilation device.

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