KR102151260B1 - Building automation system with fine dust detector - Google Patents

Abstract

A building automatic control system to which a fine dust detector is applied is disclosed. The building automatic control system to which the fine dust detector is applied is a building automatic control system for automatically controlling an air conditioner based on the indoor environment information of the building, which is installed outside the building and controls the temperature and humidity of the fine dust and air. An outdoor detector to detect; An indoor detector installed inside a building and detecting temperature and humidity of carbon dioxide and air; An air conditioner for controlling indoor environment information, including an outdoor damper for controlling the flow of external air flowing into the building and an air conditioner for controlling indoor temperature and humidity; A digital controller for comparing and calculating received information based on information received from the outdoor detector and the indoor detector, and controlling the air conditioner according to control target setting information for a preset indoor air condition; And a central computer connected to the digital control unit and collectively controlling the digital control unit.

Description

Building automation system with fine dust detector

The present invention relates to a building automatic control system to which a fine dust detector is applied, and more specifically, by controlling the air conditioner so that external air can be introduced in response to a preset indoor air condition by comparing external air and indoor air. It relates to a building automatic control system to which a fine dust detector is applied to improve indoor air quality.

In general, the automatic building control system monitors various facilities that rapidly increase as buildings become larger and more advanced, namely air conditioning facilities (cooling and heating facilities), electricity, disaster prevention, crime prevention, communication facilities, etc., and monitored at a central control center. As a system that can be controlled by a system, the building automatic control system includes an air conditioning-related building automatic control system for automatically controlling the air conditioner based on the indoor environment information of the building.

A conventional building automatic control system consists of an air conditioning system in which a ventilation system is operated only with indoor temperature and humidity. That is, it is configured to control the outside air damper by controlling the air introduced from the outside based on the indoor temperature and humidity information.

Such a conventional building automatic control system has a problem in that air conditioning is performed only with indoor temperature and humidity, and thus cannot be managed at a comfortable level in consideration of indoor air pollution.

In addition, in the conventional case, in the case of an external environment with a lot of fine dust, inlet air is controlled by temporarily opening or closing an external damper in order to block fine dust in the air introduced from the outside.

In other words, the conventional building automatic control system is a structure that simply introduces outside air based on the temperature and humidity of the air regardless of the indoor air quality, and closes the outside air damper when the outside environment has a high degree of fine dust. Since it is composed of a structure to block the indoor air quality, there is a problem that it is difficult to provide a pleasant environment indoors.

It is an object of the present invention to solve this problem, and to improve indoor air quality by comparing the outside air with the indoor air and controlling the air conditioner so that outside air can be introduced in response to a preset indoor air condition. It is to provide a building automatic control system to which a fine dust detector is applied.

A building automatic control system to which a fine dust detector is applied according to an embodiment of the technical idea of the present invention to achieve the above object is a building automatic control system for automatically controlling an air conditioner based on indoor environment information of a building. , An outdoor detector installed outdoors of a building and detecting fine dust and air temperature and humidity; An indoor detector installed inside a building and sensing temperature and humidity of carbon dioxide and air; An air conditioner for controlling indoor environment information, including an outdoor damper for controlling the flow of external air flowing into the building and an air conditioner for controlling indoor temperature and humidity; A digital controller for comparing and calculating received information based on information received from the outdoor detector and the indoor detector, and controlling the air conditioner according to control target setting information for a preset indoor air condition; And a central computer connected to the digital control unit to collectively control the digital control unit, wherein the digital control unit compares and calculates the fine dust concentration received from the outdoor detector and the carbon dioxide concentration received from the indoor detector, wherein the If it is determined that the indoor carbon dioxide concentration is relatively higher than the external fine dust concentration according to the preset control target setting information, the outdoor damper is controlled to open, and the fine dust concentration and the carbon dioxide concentration are compared and calculated. Thereafter, when the outdoor damper is in a closed state, the temperature and humidity received from the outdoor detector are compared with the temperature and humidity received from the indoor detector, and the air is adjusted to correspond to the preset control target setting information. The conditioning unit is controlled, and at least one of enthalpy, discharge temperature, outside air cooling, air volume, automatic ventilation, and humidity can be controlled.

The digital control unit compares and calculates the concentration of fine dust received from the outdoor detector and the concentration of carbon dioxide received from the indoor detector, and the indoor carbon dioxide concentration is relative to the external fine dust concentration according to the preset control target setting information. If it is determined to be high, the outside air damper may be controlled to open, and at least one of enthalpy, discharge temperature, outside air cooling, air volume, automatic ventilation, and humidity may be controlled.

In addition, the digital control unit compares the temperature and humidity information sensed from the outdoor detector with the temperature and humidity information input from the indoor detector, but relative to the outdoor temperature and humidity information according to the preset control target setting information. As a result, when it is determined that the indoor temperature and humidity values are high, the air conditioner can be controlled to operate.

In addition, the digital control unit may include an input unit for inputting signals sensed from the indoor and outdoor detectors; A communication unit for communicating with an external component connected; A control unit that generates an operation control command of the air conditioner based on the information input from the input unit; And an output unit for transmitting an operation control command generated by the control unit to the air conditioner.

In addition, the digital control unit may further include an operation unit that determines whether the outdoor damper is open or closed by determining a reference value of the fine dust concentration and the carbon dioxide concentration according to the preset control target setting information. have.

In addition, the control target setting information is a database learned based on existing accumulated data, and the database may be set differently by dividing it into a morning/lunch/evening/night time slot of the day.

In addition, the digital control unit may include a display unit for displaying external fine dust state information including an external fine dust concentration and indoor air quality state information.

In addition, the digital control unit monitors and displays filter status information of the air conditioner contaminated by outside air, determines the level of contamination of the filter based on the filter status information, and informs the filter replacement cycle in advance. May contain wealth.

The building automatic control system to which the fine dust detector according to the present invention is applied detects the temperature and humidity of fine dust and air through an outdoor detector, detects the temperature and humidity of carbon dioxide and air through an indoor detector, and receives it from the outdoor detector. Controls the outside air damper by comparing the concentration of fine dust generated and the concentration of carbon dioxide received from the indoor detector, and controls the air conditioner so that outside air can be introduced in response to a preset indoor air condition by comparing the outside air and indoor air. By doing so, it is possible to improve the indoor air quality in consideration of the indoor air pollution degree, and thus there is an effect that the indoor air can always be managed at a comfortable level.

1 is a block diagram schematically showing the configuration of a building automatic control system to which a fine dust detector is applied according to an embodiment of the present invention.
Figure 2 is a flow chart schematically showing the operation sequence of the building automatic control system to which the fine dust detector is applied according to an embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the implementation of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the drawings.

Hereinafter, the present invention will be described in detail by describing a preferred embodiment of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

1 is a block diagram schematically showing the configuration of a building automatic control system to which a fine dust detector is applied according to an embodiment of the present invention.

A building automatic control system to which a fine dust detector is applied according to an embodiment of the present invention relates to an air conditioning-related building automatic control system for automatically controlling an air conditioner based on indoor environment information of a building.

Referring to FIG. 1, a building automatic control system (hereinafter, an automatic control system) to which a fine dust detector according to an embodiment of the present invention is applied is largely, an outdoor detector 100, an indoor detector 200, and an air conditioner 300. ), may include a digital control unit 400, a central computer 500.

The automatic control system basically detects the outdoor air condition, detects the indoor air condition, compares the air condition with each other, and controls the system so that outside air can be introduced in response to a preset air conditioning condition. It can be composed of.

The outdoor detector 100 includes a fine dust detector, a thermometer and a hygrometer installed outdoors of a building and capable of detecting the temperature and humidity of fine dust and air, and is composed of a sensor capable of measuring the concentration of a detection target. Can be. In this case, the sensor of the outdoor detector 100 may include a sensor capable of detecting whether or not fine dust is contained in the air or to detect the concentration of the fine dust.

The indoor detector 200 is installed indoors of a building and includes a CO2 sensor capable of sensing temperature and humidity of carbon dioxide and air, a thermometer and a hygrometer, and may be configured as a sensor capable of measuring the concentration of a detection target. have. In this case, the sensor of the indoor detector 200 may include a sensor capable of detecting whether carbon dioxide is contained in air or a concentration of carbon dioxide.

The air conditioner 300 is an air conditioner for changing indoor environment information such as air in the indoor environment, and basically includes an air conditioner, a refrigerator, a boiler, a heat exchanger, a pump, a fan, a hot/cold water valve, an outdoor damper, etc. May include facilities. That is, the air conditioning unit 300 may include all air conditioning-related equipment for controlling the temperature and humidity of indoor air by ventilating indoor air or operating a boiler, a refrigerator, or the like.

Here, in the air conditioner 300, the outdoor air damper is an automatic opening/closing device for controlling the flow of air introduced from the outdoor to the indoor, and may be automatically opened or closed according to the indoor air environment.

The digital controller 400 compares and calculates the received information based on the information received from the outdoor detector 100 and the indoor detector 200, and calculates the air according to the control target setting information for a preset indoor air condition. As a part for controlling the conditioning unit 300, the driving of the air conditioning unit 300 may be controlled in response to analysis data on indoor air quality compared with external air and a preset air pollution level.

In addition, the digital controller 400 compares the temperature and humidity information sensed from the outdoor detector 100 with the temperature and humidity information input from the indoor detector 200, but according to the preset control target setting information. If it is determined that the indoor temperature and humidity values are relatively higher than the outdoor temperature and humidity information, the air conditioner may be controlled to operate.

The digital control unit 400 may largely include an input unit 410, a communication unit 420, a control unit 430, and an output unit 440.

The input unit 410 is a part to which signals sensed from the outdoor sensor 100 and the indoor sensor 200 are input. In this case, the sensed signal may be a signal for the concentration of external temperature, humidity, and fine dust in the case of the outdoor detector 100, and may be a signal for the indoor temperature, humidity, and concentration of carbon dioxide in the case of the indoor detector 100. have. Accordingly, signals sensed from the outdoor detector 100 and the indoor detector 200 may be transmitted to the input unit 410 of the digital controller 400 at all times in real time.

The communication unit 420 is a part that communicates with external components such as the outdoor sensor 100, the indoor sensor 200, the air conditioner 300, and the central computer 500 connected to the digital control unit 400.

The control unit 430 is a part that generates an operation control command of the air conditioner 300 based on information input from the input unit 410. That is, the controller 430 communicates with the central computer 500 to determine a situation in which the air conditioner 300 is to be operated, and generates an operation control command.

The output unit 440 is a part for transmitting an operation control command generated by the control unit 430 to the air conditioner 300.

In addition, the digital control unit 400 stores information input and processed from the power supply unit 450 for supplying power to the components inside the digital control unit 400, the outdoor locking device 100, and the indoor detector 200. It may include a storage unit 460 for doing.

In addition, the digital control unit 400, according to the preset control target setting information, by determining a reference value of the concentration of fine dust and the concentration of carbon dioxide, the operation unit to determine whether the open (OPEN) or closed (CLOSE) operation of the outdoor damper ( 470) may be further included. In this case, the operation unit 470 may determine whether to determine a reference value by placing a specific gravity as either the fine dust concentration or the carbon dioxide concentration based on the control target setting information, and determine whether to operate the outdoor damper.

For example, the control target setting information is set to allow the inflow of outside air when the indoor carbon dioxide concentration is relatively high, but the indoor temperature is high, and the air quality is improved. If the standard is set first, even when the indoor carbon dioxide concentration is relatively low and the indoor temperature is high, if the concentration of fine dust in the outside air is high, the outside air inflow is variably set to not allow the inflow of outside air. Can be allowed.

As such, the control target information is predictive data learned based on existing accumulated data, and the predicted data may be set on a basis for each morning/lunch/evening/night time of the day. In other words, the most efficient target can be set by setting the standard for each time period in which the allowable range of external air inflow is set in consideration of the indoor and outdoor environment and the user's selection criteria.

Accordingly, if the air conditioner 300 is operated according to the control target information, even when the indoor temperature is high, the set temperature can be maintained even when the refrigerator or the like is not operated, thereby saving energy and improving indoor air quality. You will be able to get the effect that can be done.

Meanwhile, the digital control unit 400 may further include a display unit 480 for displaying external fine dust state information including external fine dust concentration and indoor air quality state information.

The display unit 480 displays real-time information detected by the outdoor detector 100 and the indoor detector 200 so that the user can check it, or displays the indoor environment information of the indoor space in real time so that the user can easily compare the current state in real time. Provide information to help you.

In addition, the digital control unit 400 monitors and displays filter status information of the air conditioner contaminated by external air, determines the level of contamination of the filter based on the filter status information, and informs the filter replacement cycle in advance. May further include an alarm notification unit 490. That is, by the alarm notification unit 490, the user can check the pollution level of the filter and the filter replacement cycle can be checked.

The central computer 500 is a part that is connected to the digital control unit 400 and controls the digital control unit 400 as a whole. That is, when external air information and indoor air information are input to the input unit 410 of the digital control unit 400 through the indoor detector 100 and the outdoor detector 200, the digital control unit 400 is transferred to the central computer 500. Relevant information is transmitted and the central computer 500 determines whether the air conditioner 300 is operating, transmits an operation command signal to the digital control unit 400, and sends air through the output unit 440 of the digital control unit 400. By transmitting the operation command signal to the harmony unit 300, it is possible to control the digital control unit 400 through the central computer 500 as a whole.

2 is a flow chart schematically showing the operation sequence of the building automatic control system to which the fine dust detector is applied according to an embodiment of the present invention.

Referring to FIG. 2, first, when the automatic control system is operated, external air information and indoor air information are input to the input unit 410 of the digital controller 400 through the outdoor detector 100 and the indoor detector 200.

Then, the received information is compared and calculated based on the air information received from the outdoor detector 100 and the indoor detector 200 in accordance with the control target setting information for the preset indoor air condition (primary process).

Then, if the control target comparison value of the indoor carbon dioxide concentration is higher than the control target comparison value of the outdoor fine dust concentration based on the control target setting information for the preset indoor air condition, the digital control unit 400 is Is controlled to be OPEN so that outside air can be introduced into the room. On the contrary, when the control target comparison value of the outdoor fine dust concentration is higher than the control target comparison value of the indoor carbon dioxide concentration, the outdoor damper is controlled in a closed state.

In this case, the open state of the outdoor air damper does not mean that it is completely open, but may include a case where it is partially opened. For example, when it is necessary to open the outdoor damper in consideration of the indoor environment and control target setting, in some cases, even if the outdoor damper is not completely opened 100%, only 10% may be opened. In this case, it can also be defined that the outside air damper is open.

On the other hand, if it is determined that the indoor carbon dioxide concentration is higher than the set value based on the preset indoor air condition control target setting information, a caution alarm is generated so that the user can recognize a situation that requires attention. At this time, a caution alarm may be generated through the alarm notification unit 490.

Then, by separating summer and winter, the control target setting information according to the characteristics of the season may be set and operated according to the corresponding season, and the season mode may be automatically selected according to the corresponding season.

Then, when the outdoor damper is in a closed state, the temperature and humidity received from the outdoor detector 100 and the temperature and humidity received from the indoor detector 200 are compared (second process).

Then, the air conditioner 300 may be operated according to the degree of indoor temperature and humidity based on the control target setting information for the preset indoor air condition.

The building automatic control system to which the fine dust detector according to the present invention is applied according to an embodiment according to the technical idea of the present invention detects the temperature and humidity of fine dust and air through the outdoor detector 100, and the indoor detector By detecting the temperature and humidity of carbon dioxide and air through 200, the concentration of fine dust received from the outdoor detector 100 and the concentration of carbon dioxide received from the indoor detector 200 are compared and calculated to control the outdoor damper, and By comparing and calculating air and indoor air, the air conditioner is controlled so that outside air can be introduced in response to a preset indoor air condition, so that indoor air quality can be improved in consideration of indoor air pollution. There is an effect that can be managed at a level.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been used herein, these are only used for the purpose of describing the present invention and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical scope of the present invention should be determined by the technical spirit of the appended claims.

100: outdoor detector 200: indoor detector
300: air conditioning unit 400: digital control unit
410: input unit 420: communication unit
430: control unit 440: output unit
450: power unit 460: storage unit
470: operation unit 480: display unit
490: alarm notification unit 500: central computer

Claims (7)

In the building automatic control system for automatically controlling an air conditioner based on the indoor environment information of the building,
An outdoor detector installed outdoors of a building and detecting fine dust and air temperature and humidity;
An indoor detector installed inside a building and detecting temperature and humidity of carbon dioxide and air;
An air conditioner for controlling indoor environment information, including an outdoor damper for controlling a flow of outside air flowing into the building and an air conditioner for controlling indoor temperature and humidity;
A digital controller that compares and calculates received information based on the information received from the outdoor detector and the indoor detector, and controls the air conditioner in accordance with control target setting information for a preset indoor air condition; And
Includes; a central computer connected to the digital control unit for collectively controlling the digital control unit,
The digital control unit,
Comparing and calculating the concentration of fine dust received from the outdoor detector with the concentration of carbon dioxide received from the indoor detector, the control target comparison value of the indoor carbon dioxide concentration according to the preset control target setting information is the control target of the external fine dust concentration If it is determined that it is relatively high compared to the comparison value, the outside air damper is controlled to open,
After comparing and calculating the fine dust concentration and carbon dioxide concentration, when the outdoor air damper is in a closed state, the temperature and humidity received from the outdoor sensor are compared with the temperature and humidity received from the indoor sensor. Controlling the air conditioning unit to correspond to the set control target setting information,
The control target setting information,
It is a prediction database learned based on the existing accumulated data,
The database,
It is set differently for each morning/lunch/dinner/night time of the day,
Building automatic control system with fine dust detector, characterized in that at least one of enthalpy, discharge temperature, outside air cooling, air volume, automatic ventilation, and humidity is controlled. The method of claim 1,
The digital control unit,
Comparing the temperature and humidity information sensed from the outdoor detector with the temperature and humidity information input from the indoor detector, but the indoor temperature and humidity values relative to the outdoor temperature and humidity information according to the preset control target setting information If it is determined that is high, the building automatic control system to which the fine dust detector is applied, characterized in that controlling the air conditioner to operate. The method of claim 1,
The digital control unit,
An input unit for inputting signals sensed from the indoor and outdoor detectors;
A communication unit for communicating with an external component connected;
A control unit that generates an operation control command of the air conditioner based on the information input from the input unit; And
And an output unit for transmitting an operation control command generated by the control unit to the air conditioning unit. 2. A building automatic control system to which a fine dust detector is applied. The method of claim 3,
The digital control unit,
According to the preset control target setting information, the fine dust detector further comprises an operation unit for determining whether the outside air damper is open or closed by determining a reference value of the fine dust concentration and the carbon dioxide concentration. Applied building automatic control system. delete The method of claim 1,
The digital control unit,
Building automatic control system to which a fine dust detector is applied, comprising a display unit for displaying external fine dust state information including external fine dust concentration and indoor air quality state information. The method of claim 1,
The digital control unit,
Monitors and displays filter status information of air conditioners contaminated by outside air,
A building automatic control system to which a fine dust detector is applied, comprising an alarm notification unit that determines the degree of contamination of the filter based on the filter status information and informs in advance of a filter replacement cycle.

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