KR20190012295A - Residence space's ventilation controlling system - Google Patents

Abstract

The present invention provides a space ventilation control system which allows ventilation by controlling flows of air in an interior space. The space ventilation control system includes: an outdoor exhaust part and an outdoor intake part, which are provided on the outdoor side; an indoor exhaust part and an indoor intake part, which are provided in the indoor side; an exhaust fan which provides an air flow path between the indoor exhaust part and the outdoor exhaust part and discharges interior air through the outdoor exhaust part; an intake fan which provides an air flow path between the indoor intake part and the outdoor intake part and introduces exterior air into the interior through the indoor intake part; a filter unit which is provided on an air flow path between the indoor intake part and the outdoor intake part and filters the air introduced through the outdoor intake part; and an indoor environment control unit which controls operations of the exhaust fan and the intake fan.

Description

[0001] The present invention relates to a space-

The present invention relates to a system for controlling the environment of a space in which a person can reside, and more particularly, to a ventilation control system capable of reducing the inflow of fine dust into the room while allowing indoor air to be ventilated smoothly.

As the home network is spread to each household, the user can control the indoor air conditioner, the ventilation device, the heating device, and other digital devices from the outside through a wired / wireless telephone or the Internet, Technology for improving the convenience of users and quality of life is being implemented.

In recent years, interest in indoor environments (pollution) such as homes and offices has been increasing due to various inconveniences caused by environmental pollution and high recognition of health. In response to this interest, air conditioners such as air cleaners, ventilators, or range hoods are automatically operated based on the indoor air pollution degree or windows are opened / closed to purify polluted air in the room to create a more pleasant indoor environment.

As described above, the air conditioner is provided with a more comfortable environment for the user by allowing the indoor environment to be controlled in an appropriate temperature and humidity. Accordingly, the indoor environment provided to the user according to the operation of the air conditioner is inevitably related to the weather, and a method of controlling the operation of the air conditioner in relation to the weather is required. However, Real time weather information broadcasted on the radio is viewed and listened to in time, the driving condition of the air conditioner is set based on the weather information thus acquired, and the window is opened and closed at that time to purify the contaminated air in the room .

However, in this method, the user is required to actively acquire weather information, and when the program or the corner is missed, the weather information is not known and the operating condition of the air conditioner can not be set . In addition, since it is almost impossible to determine the driving conditions of the air conditioner efficiently by grasping the outside weather information changing in real time, the driving conditions are set in a day or a week basis, The driving of the air conditioner may have a problem in compatibility with the indoor and outdoor environments and unnecessary cooling and heating and ventilation devices are implemented due to improper driving of the indoor and outdoor environments, fuel and electric power consumption are increased and the economic burden is increased There is a problem.

Particularly, due to the fine dust, outdoor activities are becoming more and more difficult, indoor ventilation is difficult, and health is deteriorated. The ventilation of indoor is smoothly performed, and the problem of preventing infiltration of fine dust in outside is greatly increased .

The present invention relates to a system for controlling indoor ventilation using various algorithms using indoor space and outdoor environmental data, and more particularly, to a system for controlling indoor ventilation in various cases when indoor fine dust exceeds a preset reference value, We propose a system for

A space ventilation control system of the present invention is a system that enables ventilation by controlling air flow in an indoor space, comprising: an outdoor exhaust part configured on an outdoor side; an outdoor air intake part; An indoor exhaust unit configured on the indoor side, an indoor intake unit; An exhaust fan that provides an air movement path between the indoor exhaust unit and the outdoor exhaust unit and allows indoor air to be exhausted through the outdoor exhaust unit; An intake fan for allowing outdoor air to flow into the room through the indoor air intake part while providing an air movement path between the indoor air intake part and the outdoor air intake part; A filter unit configured on an air movement path between the indoor air intake unit and the outdoor air intake unit, for filtering the air introduced through the outdoor air intake unit; And an indoor environment control unit for controlling the operation of the exhaust fan and the intake fan.

The indoor ventilation can be controlled by using the carbon dioxide level of the room and the fine dust level of the outdoor space by the system of the present invention so that the room ventilation can be performed with clean air and the room temperature is rapidly There is an advantage that a temperature difference such as going up or down does not occur.

1 and 2 are views for explaining a space ventilation control system according to embodiments of the present invention.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings. It should be understood, however, that the scope of the inventive concept of the present embodiment can be determined from the matters disclosed in the present embodiment, and the spirit of the present invention possessed by the present embodiment is not limited to the embodiments in which addition, Variations.

The suffix "module" and "part" used in the description relating to the present invention are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

In the case of the present invention, it can be applied to a space where a person can stay over a certain period of time.

FIG. 1 is a view showing a configuration of a space ventilation control system according to an embodiment of the present invention.

Referring to FIG. 1, the space ventilation control system 10 of the present embodiment includes a ventilation control device 100 for physically controlling the air flow between the room and the outside, a ventilation control device 100 for measuring indoor and outdoor environment data, And an indoor environment control unit (200) as means for controlling the operation of the apparatus (100).

The ventilation control device 100 includes an outdoor exhaust part 111, an outdoor air intake part 112 and an outdoor environment sensor part 115 as an outdoor side structure and has an indoor exhaust part 121, (122) and an indoor environment sensor unit (125).

In order to reduce the temperature and humidity difference of the air introduced into the room while reducing the inflow of fine dusts, the exhaust fan 113, the intake fan 123, the filter unit (not shown) 140 and a temperature and humidity controller 130.

The air introduced into the room from the outside and the air discharged from the room to the outside are shown by arrows.

When the exhaust fan 113 is operated, the room air is moved to the outdoor exhaust unit 111 through the indoor exhaust unit 121 to escape to the outside.

When the suction fan 123 operates, the outdoor air passes through the outdoor air intake unit 112, passes through the filter unit 140, and then flows into the room through the indoor air intake unit 122. The first filter 141 and the second filter 142 may have a dual structure and the first filter 141 and the second filter 142 may be physically separated from each other. So that the indoor air to be discharged when the exhaust fan 113 is operated is not interfered by the filter unit 140, and the filter unit is not cleaned up to unnecessary air.

In addition, a temperature and humidity control unit 130 is formed on the air movement path between the filter unit 140 and the indoor air intake unit 122. The temperature and humidity control unit 130 is a unit for reducing the difference in the indoor environment from the outdoor air flowing into the indoor space. The temperature and humidity of the indoor air is increased or decreased by the filter unit, It plays a role in controlling humidity.

The temperature and humidity control unit 130 may be configured to temporarily cool or heat the surroundings and may include a separate humidifying unit or a dehumidifying unit so as to control the temperature and humidity of the outdoor air flowing into the room. do.

On the other hand, each of the outdoor side and the indoor side includes an outdoor environment sensor unit 115 and an indoor environment sensor unit 125 as a sensor unit for measuring outdoor and indoor environments.

The outdoor environment sensor unit 115 and the indoor environment sensor unit 125 are sensors for measuring outdoor and indoor temperature and humidity and also serve to measure the concentration of fine dust outside the room and the carbon dioxide level of the room. The indoor environment sensor unit 125 can measure the concentration of indoor fine dust together with the indoor carbon dioxide concentration.

However, instead of directly measuring the concentration of the fine dust outside the outdoor environment sensor unit 115, the communication unit 204 of the indoor environment control unit 200 may measure the concentration of the dust in the outdoor air from an external server such as a weather station, The data on the fine dust concentration of the micro-dust can be confirmed.

The configuration of the indoor environment control unit 200 receiving the information on the outdoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor / outdoor temperature / humidity measured by the outdoor environment sensor unit 115 and the indoor environment sensor unit 125 Will be described.

The indoor environment control unit 200 may be installed in a room where indoor ventilation control is performed. When the indoor environment control unit 200 is composed of a plurality of indoor spaces such as a building, the indoor environment control unit 200 can control a plurality of spaces.

The indoor environment control unit 200 includes an external environment check unit 201 for reading the measured values of the outdoor environment sensor unit 115 and an internal environment reading unit for reading the measured values of the indoor environment sensor unit 25, A ventilation control unit 203 for controlling the operation of the ventilation control device 100, a control unit 202 for controlling the operation of the ventilation control device 100, .

The ventilation control unit 203 can control the operation of the ventilation control device 100 according to various conditions and can largely control the outdoor fine dust concentration measured by the communication unit 204 or the outdoor environment sensor unit 115, And the case where it is less than or equal to the reference value can be roughly divided.

When the ventilation control unit 203 confirms the external fine dust concentration through the outdoor environment sensor unit / external environment confirmation unit or receives the data of the external server through the communication unit to check the external fine dust concentration, And the case where it is less than a preset reference value will be described.

At this time, the ventilation control unit 203 confirms the indoor carbon dioxide concentration measured by the indoor environment sensor unit 125 and the indoor fine dust concentration value through the indoor environment check unit 202.

First, the indoor ventilation control method will be described in the case where the outdoor fine dust concentration is less than the preset reference value.

First, it can be assumed that the indoor carbon dioxide concentration is measured to be higher than a predetermined reference carbon dioxide concentration, and the indoor fine dust concentration is lower than the indoor fine dust reference value. At this time, since the indoor carbon dioxide concentration is higher than the reference value and the outdoor fine dust concentration is not high, the ventilation operation for lowering the indoor carbon dioxide concentration can be performed. That is, both the exhaust fan 113 and the suction fan 123 are operated, and the air outside the room flows into the room and the air in the room is vented to the outside.

If the indoor carbon dioxide concentration is measured to be higher than the predetermined reference carbon dioxide concentration and the indoor fine dust concentration is higher than the indoor fine dust reference value, it is assumed that the outdoor fine dust concentration is low. ) Is operated.

However, when the indoor carbon dioxide concentration is lower than the reference carbon dioxide concentration and the indoor fine dust concentration is also lower than the reference indoor indoor fine dust concentration, it is possible to say that indoor ventilation is not necessary. However, It is possible to determine whether or not the operation of the unit 130 is to be executed.

In other cases described above, the operation of the temperature / humidity control unit 130 may be selectively operated according to the temperature and humidity of the room and the outside. In the case where it is determined that indoor ventilation is not necessary, And an operation for controlling the humidity can be selectively performed.

Finally, even if the indoor carbon dioxide concentration is lower than the reference indoor carbon dioxide concentration and the indoor fine dust concentration is higher than the reference indoor indoor fine dust concentration, since the outdoor fine dust concentration is lower than the reference value, Can be performed.

However, unlike the case of this embodiment, the outdoor fine dust concentration measured by the outdoor environment sensor unit 115, or the outdoor fine dust concentration delivered from the external server through the communication unit 204 is smaller than the predetermined reference outdoor outdoor fine dust concentration If it is high, the indoor ventilation operation can be operated differently according to each case. If the detected outdoor fine dust concentration is higher than the reference outdoor air dust concentration, a method of controlling the ventilation according to the indoor environment will be described.

First, the measured indoor carbon dioxide concentration is higher than the reference indoor carbon dioxide concentration, and the measured indoor fine dust concentration is lower than the reference indoor fine dust concentration. In this case, the operation of discharging the indoor air is performed, and the indoor air is allowed to escape to the outside by the operation of the exhaust fan 113, so that the indirect ventilation is performed.

The measured indoor carbon dioxide concentration is higher than the reference indoor carbon dioxide concentration and the measured indoor fine dust concentration is higher than the reference indoor indoor fine dust concentration. In this case, since ventilation is insufficient only by the discharge of indoor air, ventilation is performed in which fine dust filtering by the first filter 141 and the second filter 142 is sufficiently performed. That is, by the operation of the exhaust fan 113 and the intake fan 123, the room air is discharged to the outside and the outdoor air flows into the room. In order to reduce the temperature difference and the humidity difference, .

The measured indoor carbon dioxide concentration is lower than the reference indoor carbon dioxide concentration and the measured indoor fine dust concentration is lower than the reference indoor fine dust concentration. In this case, since the outdoor environment is worse than the indoor environment, neither the exhaust fan nor the suction fan starts to operate.

The measured indoor carbon dioxide concentration is lower than the reference indoor carbon dioxide concentration, and the indoor indoor fine dust concentration is higher than the reference indoor indoor fine dust concentration. In this case, the exhaust fan 113 can be selectively operated according to the difference between the measured indoor temperature and the outdoor temperature. That is, when the room temperature and the outdoor temperature are larger than the predetermined temperature difference, the exhaust fan 113 is not operated. When the temperature difference is within the reference difference value, the exhaust fan 113 Is operated.

The operation of the exhaust fan and the intake fan is controlled according to various situations as described above, and the operation of the temperature / humidity control unit 130 is also controlled together with it, so that the indoor environment can be maintained more comfortably.

The ventilation control device 100 is not necessarily installed in the indoor / outdoor outdoor boundary area. As shown in FIG. 2, the ventilation control device 100 includes a plurality of ventilation control devices 100 And it is possible for the indoor environment control section to control each of these ventilation control devices.

For example, even in the room, the concentration of carbon dioxide and the concentration of fine dust are measured for each position, and the operation of the exhaust fan and the intake fan of the ventilation control device adjacent to the position is controlled to introduce outdoor air from the left side of the room, Ventilation is possible to let indoor air escape.

That is, a plurality of indoor environmental sensor units 125 are installed in different indoor spaces with different positions, and only the intake fan is operated in the first ventilation control unit according to the concentration of carbon dioxide and the concentration of fine dusts measured by each indoor environmental sensor unit , And only the exhaust fan can be operated in the second ventilation control device at another position.

This is because it is possible to selectively control the discharge of indoor air and the inflow of outdoor air at each position.

Claims (3)

A system for enabling ventilation by controlling air flow in an indoor space,
An outdoor exhaust part formed on the outdoor side, an outdoor air intake part;
An indoor exhaust unit configured on the indoor side, an indoor intake unit;
An exhaust fan that provides an air movement path between the indoor exhaust unit and the outdoor exhaust unit and allows indoor air to be exhausted through the outdoor exhaust unit;
An intake fan for allowing outdoor air to flow into the room through the indoor air intake part while providing an air movement path between the indoor air intake part and the outdoor air intake part;
A filter unit configured on an air movement path between the indoor air intake unit and the outdoor air intake unit, for filtering the air introduced through the outdoor air intake unit; And
And an indoor environment control unit for controlling the operation of the exhaust fan and the suction fan. The method according to claim 1,
Wherein the filter portion includes a first filter and a second filter disposed to be spaced apart from the first filter,
Wherein the first filter and the second filter are installed on the air movement path of the outdoor air intake unit and the indoor air intake unit so that the air moving in the path between the indoor air discharge unit and the outdoor air discharge unit is passed through the first filter and the second filter, Wherein the first filter and the second filter are installed so as not to pass through the space. The method according to claim 1,
Wherein the indoor environment control unit includes a communication unit capable of reading the outdoor fine dust measurement value from an external server,
An outdoor environmental sensor unit for measuring the concentration of fine dust of the outdoor air, the outdoor temperature, and the outdoor humidity is formed on the outdoor side,
An indoor environment sensor unit for measuring the concentration of fine dust of the room air, the outdoor temperature, and the outdoor humidity is formed on the indoor side,
Wherein the indoor environment control unit receives and confirms a value measured by the outdoor environment sensor unit and the indoor environment sensor unit.

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