KR102508130B1 - Indoor environment control system and the operation method - Google Patents

Abstract

The present invention relates to an indoor environment device including a ventilation device, an air purifier, and a kitchen hood, and when the temperature and humidity of the room belong to a set comfort range, the ventilation device and the air An indoor environment control system including a control device controlling an operation of at least one of the air purifier and the kitchen hood is provided.

Description

Indoor environment control system and the operation method {Indoor environment control system and the operation method}

The present invention relates to an indoor environment control system and an operating method thereof, and more particularly, when indoor temperature and humidity fall within a comfortable range, indoor air quality can be improved according to indoor fine dust concentration and outdoor fine dust concentration It relates to an indoor environment control system and its operating method.

In general, when a cooling device such as an air conditioner is operated for cooling, the relative humidity is lowered due to dehumidification, and the humidity when a heating device such as a boiler is operated for heating may be lowered.

Also, when the humidifier is operating, the temperature is slightly lowered and when the dehumidifier is operating, the temperature is slightly increased.

However, if both cooling and dehumidification are required, it is okay to operate only the cooling system, but the humidity is lowered even during cooling and the relative humidity is lowered as the indoor air becomes dry even during heating. device and dehumidifier can be operated.

Energy waste may occur here, and excessive cooling or excessive heating may occur.

In addition, a user feeling poor indoor air quality may operate a ventilation device or open a window for ventilation. In this case, as the indoor temperature changes, additional energy is required to cool or heat it again.

In this way, when the indoor environmental devices are individually controlled, energy waste as well as inconvenience occurs.

In order to solve this problem, integrated control methods have been proposed, but they are only controlled quickly (ie, in a way that shortens operation time as much as possible) using only temperature and humidity, and do not consider ways to improve indoor air quality. did not

Recently, an integrated control method that can improve indoor air quality by considering thermal comfort of indoor temperature and humidity is being studied.

An object of the present invention is to provide an indoor environment control system and an operating method thereof capable of improving indoor air quality according to indoor fine dust concentration and outdoor fine dust concentration when indoor temperature and humidity fall within a comfortable range.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned above can be understood by the following description and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by means of the instrumentalities and combinations indicated in the claims.

The indoor environment control system according to the present invention is based on the concentration of indoor fine dust and the concentration of outdoor fine dust when the temperature and humidity of indoor environment devices including a ventilator, air purifier, and kitchen hood belong to a set comfort range. A control device controlling an operation of at least one of the ventilation device, the air purifier, and the kitchen hood may be included.

The control device may include a sensor module for measuring the temperature, the humidity, the indoor fine dust concentration, and the outdoor fine dust concentration, and the indoor fine dust concentration and the outdoor fine dust concentration when the temperature and the humidity fall within the comfort range. and a control module that compares dust concentrations and controls an operation of at least one of the ventilation device, the air purifier, and the kitchen hood.

The control module may include a calculation unit that compares the indoor fine dust concentration and the outdoor fine dust concentration to calculate a concentration difference value, and operates at least one of the ventilation device, the air purifier, and the kitchen hood according to the concentration difference value. It may include an operation unit for controlling.

When the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a first reference concentration difference value range, the operating unit operates the ventilation device and the kitchen hood according to the first reference concentration difference value. On can be operated.

When the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a second reference concentration difference value range, the operation unit operates the ventilation device, the kitchen hood, and the ventilation device according to the second reference concentration difference value. The air purifier may be turned on.

When the concentration difference value is lower than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a third reference concentration difference value range, the operation unit turns on the air purifier according to the third reference concentration difference value. can

An operating method of an indoor environment control system according to the present invention includes the steps of measuring indoor temperature, humidity, indoor fine dust concentration and outdoor fine dust concentration, determining whether the temperature and humidity belong to a set trajectory range, the Comparing the indoor fine dust concentration and the outdoor fine dust concentration to calculate a concentration difference value when it belongs to the comfort range, and among the ventilator, air purifier, and kitchen hood included in the indoor environment device based on the concentration difference value. It may include controlling at least one operation.

The method may further include operating at least one of a heating device, a cooling device, a humidifier, and a dehumidifier so that the temperature and humidity fall within the comfort range when the temperature and humidity do not fall within the range.

The controlling of the operation may include the ventilation device and the ventilation device according to the first reference concentration difference value when the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a first reference concentration difference value range. The kitchen hood may be turned on.

The controlling of the operation may include the ventilation device according to the second reference concentration difference value when the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a second reference concentration difference value range; The kitchen hood and the air purifier may be turned on.

The controlling of the operation may include, when the concentration difference is that the indoor fine dust concentration is lower than the outdoor fine dust concentration and belongs to the third reference concentration difference value range, the air purifier is operated according to the third reference concentration difference value. can be turned on.

The indoor environment control system and its operating method according to the present invention can improve thermal comfort based on indoor temperature and humidity, and can improve indoor air quality based on the indoor fine dust concentration and outdoor fine dust concentration. By enabling it, there is an advantage of increasing the convenience of occupants or users.

On the other hand, the effects of the present invention are not limited to the effects mentioned above, and various effects may be included within a range apparent to those skilled in the art from the contents to be described below.

1 is a control block diagram showing the configuration of an indoor environment control system according to a first embodiment of the present invention.
2 and 3 are flowcharts illustrating an operating method of an indoor environment control system according to the present invention.
4 is a control block diagram showing the configuration of an indoor environment control system according to a second embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention. Like reference numerals have been used for like elements throughout the description of each figure.

Terms such as first, second, A, and B may be used to describe various components, but the components should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention. The term and/or includes a combination of a plurality of related recited items or any one of a plurality of related recited items.

It is understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but other elements may exist in the middle. It should be. On the other hand, when an element is referred to as “directly connected” or “directly connected” to another element, it should be understood that no other element exists in the middle.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Expressions in the singular number include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in this application, it should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a control block diagram showing the configuration of an indoor environment control system according to a first embodiment of the present invention.

Referring to FIG. 1 , the indoor environment control system 100 includes a ventilation device 110, an air purifier 120, a kitchen hood 130, a heating device 140, a cooling device 150, a humidifier 160, and a dehumidifier. 170 and a control device 180.

In an embodiment, the indoor environment device (not shown) may include a ventilation device 110, an air purifier 120, and a kitchen hood 130, and may be devices for improving indoor air quality, but are not limited thereto. do not let

The thermal comfort device (not shown) may include a heating device 140, a cooling device 150, a humidifier 160, and a dehumidifier 170, and may improve thermal comfort by adjusting indoor temperature and humidity. It may be a device that is present, but is not limited thereto.

The ventilation device 110 is a forced ventilation device that uses energy, and has a somewhat weak control function for temperature and humidity, but can improve indoor air quality.

The air purifier 120 may perform a function of improving indoor air quality by removing foreign substances contained in indoor air.

The kitchen hood 130 can discharge carbon dioxide and odor generated during cooking to the outside, and can additionally perform a function of improving indoor air quality.

The heating device 140 may perform a heating function by raising the temperature of the room, and the cooling device 150 may perform a cooling function by lowering the temperature of the room unlike the heating device 140 .

The humidifier 160 and the dehumidifier 170 may perform a function of controlling indoor humidity.

The control device 180 may include a sensor module 210 and a control module 220 .

The sensor module 210 may include a plurality of functional sensors capable of measuring indoor temperature, humidity, indoor fine dust concentration, and outdoor fine dust concentration, but is not limited thereto.

For example, the plurality of functional sensors may include a temperature sensor, a humidity sensor, an odor sensor, a dust sensor, and the like, but is not limited thereto.

The control module 220 may include a calculation unit 230 and an operation unit 240 .

The arithmetic unit 230 may calculate a concentration difference value by comparing the indoor fine dust concentration and the outdoor fine dust concentration.

Here, the concentration difference value is a value obtained by subtracting the outdoor fine dust concentration from the indoor fine dust concentration. , it means that the indoor fine dust concentration is higher than the outdoor fine dust concentration.

First, when indoor temperature and humidity are input, the operation unit 240 may determine whether the temperature and humidity fall within a set comfort range.

That is, the operation unit 240 may increase thermal comfort by determining whether the temperature and humidity fall within the comfort range before improving indoor air quality.

The comfort range may be, for example, a comfort temperature of 24.4° C. to 26.5° C. and a comfort humidity of 40% to 55%, and settings may be changed by the user.

When the temperature is lower than the comfort temperature and the humidity is higher than the comfort humidity, the operating unit 240 operates in a heating comfort mode to operate at least one of the heating device 140 and the dehumidifier 170. .

In addition, when the temperature is lower than the comfort temperature and the humidity belongs to the comfort humidity, the operating unit 240 operates in a heating comfort mode to operate the heating device 140 .

When the temperature is higher than the comfort temperature and the humidity is lower than the comfort humidity, the operation unit 240 may operate in a cooling comfort mode to operate at least one of the cooling device 150 and the humidifier 160 .

When the temperature is higher than the comfort temperature and the humidity is higher than the comfort humidity, the operating unit 240 may operate in a cooling comfort mode to operate at least one of the cooling device 150 and the dehumidifier 160 .

When the concentration difference value is input from the calculation unit 230 during operation in the heating or cooling comfort mode, the operation unit 240 determines whether the concentration difference value belongs to any one of the first to third reference concentration difference value ranges. can judge

First, the first reference concentration difference value range is a range in which the indoor fine dust concentration is higher than the outdoor fine dust concentration, and the second reference concentration difference value range is a range in which the indoor fine dust concentration is greater than the outdoor fine dust concentration and It may be greater than the first reference concentration difference value range.

The third reference concentration difference value range may represent a range in which the indoor fine dust concentration is lower than the outdoor fine dust concentration.

When the concentration difference value falls within the first reference concentration difference value range, the operation unit 240 may turn on the ventilation device 110 and the kitchen hood 130 according to the first reference concentration difference value.

That is, since the indoor fine dust concentration is higher than the outdoor fine dust concentration, the operating unit 240 may turn on the ventilation device 110 and the kitchen hood 130 to discharge indoor air to the outdoors.

In this case, when the ventilation device 110 and the kitchen hood 130 include pens, the operating unit 240 may adjust the speed of the pens.

When the concentration difference value falls within the second reference concentration difference value range, the operation unit 240 operates the ventilation device 110, the air purifier 120, and the kitchen hood 130 according to the second reference concentration difference value. On can be operated.

That is, since the indoor fine dust concentration is higher than the outdoor fine dust concentration, the operation unit 240 discharges the indoor air to the outside and purifies the indoor air. The kitchen hood 130 may be turned on.

When the concentration difference value falls within the third reference concentration difference value range, the operation unit 240 may turn on the air purifier 120 according to the third reference concentration difference value.

That is, since the outdoor fine dust concentration is higher than the indoor fine dust concentration, the operating unit 240 prevents outdoor air from flowing into the room and turns on the air purifier 120 to maintain the indoor air in its current state. can make it

The indoor environment control system 100 according to the present invention can improve thermal comfort by considering indoor temperature and humidity, and can improve indoor air quality by considering indoor fine dust concentration and outdoor fine dust concentration. There is an advantage to being

2 and 3 are flowcharts illustrating an operating method of an indoor environment control system according to the present invention.

Referring to FIG. 2 , the control device 180 of the indoor environment control system 100 may measure indoor temperature, humidity, indoor fine dust concentration, and outdoor fine dust concentration (S110).

That is, the sensor module 210 included in the control device 180 may measure indoor temperature, humidity, indoor fine dust concentration, and outdoor fine dust concentration.

The control device 180 determines whether the temperature and humidity fall within the set comfort range (S120), and if they do not fall within the comfort range, it may operate in a cooling comfort mode or a heating comfort mode (S130).

The cooling comfort mode and the heating comfort mode will be described with reference to FIG. 3 .

In step S120, if it belongs to the comfortable range, the control device 180 compares the indoor fine dust concentration with the outdoor fine dust concentration to calculate a concentration difference value (S140), and ventilates based on the concentration difference value. An operation of at least one of the device 110, the air purifier 120, and the kitchen hood 130 may be controlled (S150).

That is, the control module 220 included in the control device 180 may compare the indoor fine dust concentration and the outdoor fine dust concentration to calculate a concentration difference value.

Here, the concentration difference value is a value obtained by subtracting the outdoor fine dust concentration from the indoor fine dust concentration. , it means that the indoor fine dust concentration is higher than the outdoor fine dust concentration.

The control module 220 may determine whether the concentration difference value belongs to any one of the first to third reference concentration difference value ranges.

First, the first reference concentration difference value range is a range in which the indoor fine dust concentration is higher than the outdoor fine dust concentration, and the second reference concentration difference value range is a range in which the indoor fine dust concentration is greater than the outdoor fine dust concentration and It may be greater than the first reference concentration difference value range.

The third reference concentration difference value range may represent a range in which the indoor fine dust concentration is lower than the outdoor fine dust concentration.

When the concentration difference value falls within the first reference concentration difference value range, the control module 220 may turn on the ventilation device 110 and the kitchen hood 130 according to the first reference concentration difference value.

That is, since the indoor fine dust concentration is higher than the outdoor fine dust concentration, the control module 220 may turn on the ventilation device 110 and the kitchen hood 130 to discharge indoor air to the outdoors.

In this case, when the ventilation device 110 and the kitchen hood 130 include a pen, the control module 220 may adjust the speed of the pen.

When the concentration difference value falls within the second reference concentration difference value range, the operation unit 240 operates the ventilation device 110, the air purifier 120, and the kitchen hood 130 according to the second reference concentration difference value. On can be operated.

That is, since the indoor fine dust concentration is higher than the outdoor fine dust concentration, the control module 220 discharges the indoor air to the outdoors and purifies the indoor air. The kitchen hood 130 may be turned on.

When the concentration difference value falls within the third reference concentration difference value range, the control module 220 may turn on the air purifier 120 according to the third reference concentration difference value.

That is, since the outdoor fine dust concentration is higher than the indoor fine dust concentration, the control module 220 prevents outdoor air from flowing into the room and turns on the air purifier 120 to maintain the indoor air in the current state. can make it

In the embodiment, the control module 220 has been described as controlling the operation of the ventilation device 110, the air purifier 120, and the kitchen hood 130 based on indoor and outdoor fine dust concentrations, indoor temperature and humidity, It can be controlled by adding the indoor carbon dioxide concentration and VOCs concentration, but is not limited thereto.

FIG. 3 shows the step (S130) of FIG. 2 in detail.

First, if it does not belong to the comfort range, the control device 180 determines whether the temperature is lower than the comfort temperature included in the comfort range (S210), and determines whether the humidity is lower than the comfort humidity included in the comfort range. It can (S220).

In this case, the comfort range may be, for example, a comfort temperature of 24.4° C. to 26.5° C. and a comfort humidity of 40% to 55%, and settings may be changed by the user.

As a result of steps S210 and S220, when the comfort temperature is lower than the comfort temperature and the comfort humidity is higher, the control device 180 operates in the heating comfort mode and operates at least one of the heating device 140 and the dehumidifier 170. It can be done (S230).

In addition, as a result of steps (S210) and (S220), when the comfort temperature is lower than the comfort temperature and the comfort humidity is lower, the control device 180 may operate in the heating comfort mode to operate the heating device 140 (S240) .

As a result of steps (S210) and (S220), when the comfort temperature is higher than the comfort temperature and belongs to the comfort humidity, the control device 180 operates in the cooling comfort mode to operate the heating device 140 (S250).

In addition, as a result of steps S210 and S220, when the comfort temperature is higher than the comfort temperature and the comfort humidity is lower than the comfort humidity, the control device 180 operates in the cooling comfort mode, and at least one of the cooling device 150 and the humidifier 160 can operate (S260).

4 is a control block diagram showing the configuration of an indoor environment control system according to a second embodiment of the present invention.

Referring to FIG. 4 , the indoor environment control system 300 includes a ventilation device 310, an air purifier 320, a kitchen hood 330, a heating device 340, a cooling device 350, a humidifier 360, and a dehumidifier. 370 and a control device 380.

In an embodiment, the indoor environment devices (not shown) may include a ventilation device 310, an air purifier 320, and a kitchen hood 330, and may be devices for improving indoor air quality, but are not limited thereto. do not let

The thermal comfort device (not shown) may include a heating device 340, a cooling device 350, a humidifier 360, and a dehumidifier 370, and may improve thermal comfort by adjusting indoor temperature and humidity. It may be a device that is present, but is not limited thereto.

The ventilation device 310 is a forced ventilation device that uses energy, and has a somewhat weak control function for temperature and humidity, but can improve indoor air quality.

The air purifier 320 may perform a function of improving indoor air quality by removing foreign substances contained in indoor air.

The kitchen hood 330 can discharge carbon dioxide and odor generated during cooking to the outside, and can additionally perform a function of improving indoor air quality.

The heating device 340 may perform a heating function by raising the temperature of the room, and the cooling device 350 may perform a cooling function by lowering the temperature of the room unlike the heating device 340 .

The humidifier 360 and the dehumidifier 370 may perform a function of controlling indoor humidity.

The control device 380 may include a sensor module 410 and a control module 420 .

The sensor module 410 may include a plurality of function sensors capable of measuring indoor temperature, humidity, indoor fine dust concentration, and outdoor fine dust concentration, but is not limited thereto.

For example, the plurality of functional sensors may include a temperature sensor, a humidity sensor, an odor sensor, a dust sensor, and the like, but is not limited thereto.

In addition, the sensor module 420 may include an image sensor capable of capturing indoor images.

The control module 420 may include a calculation unit 430 , an image analysis unit 440 and an operation unit 450 .

The arithmetic unit 430 may calculate a concentration difference value by comparing the indoor fine dust concentration and the outdoor fine dust concentration.

Here, the concentration difference value is a value obtained by subtracting the outdoor fine dust concentration from the indoor fine dust concentration. , it means that the indoor fine dust concentration is higher than the outdoor fine dust concentration.

First, when indoor temperature and humidity are input, the operation unit 450 may determine whether the temperature and humidity fall within a set comfort range.

The image analyzer 440 may analyze the occupant's behavior based on the indoor image captured by the image sensor included in the sensor module 420 .

That is, the image analyzer 440 may infer the concentration of fine dust that may occur according to the occupant's behavior, for example, cleaning, exercise, cooking, and the like.

Here, the fine dust generation concentration may be a predicted value of the fine dust concentration generated after the current point in time according to the behavior of the occupant.

Before improving the indoor air quality, the operation unit 450 determines whether the temperature and humidity fall within the comfort range, thereby enhancing thermal comfort.

The comfort range may be, for example, a comfort temperature of 24.4° C. to 26.5° C. and a comfort humidity of 40% to 55%, and settings may be changed by the user.

When the temperature is lower than the comfort temperature and the humidity is higher than the comfort humidity, the operating unit 450 may operate in a heating comfort mode to operate at least one of the heating device 340 and the dehumidifier 370. .

In addition, when the temperature is lower than the comfort temperature and the humidity belongs to the comfort humidity, the operation unit 450 operates in a heating comfort mode to operate the heating device 340 .

When the temperature is higher than the comfort temperature and the humidity is lower than the comfort humidity, the operation unit 450 may operate in a cooling comfort mode to operate at least one of the cooling device 350 and the humidifier 360 .

When the temperature is higher than the comfort temperature and the humidity is higher than the comfort humidity, the operation unit 450 may operate in a cooling comfort mode to operate at least one of the cooling device 350 and the dehumidifier 360 .

The operation unit 450 operates at least the ventilation device 310, the air purifier 320, and the kitchen hood 330 based on the concentration difference value from the calculation unit 430 and the concentration of fine dust input from the image analysis unit 440. You can control one action.

Here, the operating unit 450 may adjust the operating time of at least one of the ventilation device 310, the air purifier 320, and the kitchen hood 330 based on the concentration of fine dust.

For example, the operation unit 450 may increase the operating time of at least one of the ventilation device 310, the air purifier 320, and the kitchen hood 330 when the concentration of fine dust is higher than the set reference concentration. .

Then, when operating in the heating or cooling comfort mode, the operation unit 450 may determine whether the concentration difference value belongs to any one of the first to third reference concentration difference value ranges.

First, the first reference concentration difference value range is a range in which the indoor fine dust concentration is higher than the outdoor fine dust concentration, and the second reference concentration difference value range is a range in which the indoor fine dust concentration is greater than the outdoor fine dust concentration and It may be greater than the first reference concentration difference value range.

The third reference concentration difference value range may represent a range in which the indoor fine dust concentration is lower than the outdoor fine dust concentration.

When the concentration difference value falls within the first reference concentration difference value range, the operation unit 450 may turn on the ventilation device 310 and the kitchen hood 330 according to the first reference concentration difference value.

That is, since the indoor fine dust concentration is higher than the outdoor fine dust concentration, the operation unit 450 may turn on the ventilation device 310 and the kitchen hood 330 to discharge indoor air to the outdoors.

In this case, when the ventilation device 310 and the kitchen hood 330 include a pen, the operation unit 450 may adjust the speed of the pen.

When the concentration difference value falls within the second reference concentration difference value range, the operation unit 450 operates the ventilation device 310, the air purifier 320, and the kitchen hood 330 according to the second reference concentration difference value. On can be operated.

That is, since the indoor fine dust concentration is higher than the outdoor fine dust concentration, the operation unit 450 discharges the indoor air to the outside and purifies the indoor air. The kitchen hood 330 may be turned on.

When the concentration difference value falls within the third reference concentration difference value range, the operation unit 450 may turn on the air purifier 320 according to the third reference concentration difference value.

That is, since the outdoor fine dust concentration is higher than the indoor fine dust concentration, the operating unit 450 prevents outdoor air from flowing into the room and turns on the air purifier 320 to maintain the indoor air in the current state. can make it

The indoor environment control system 300 according to the present invention can improve thermal comfort by considering indoor temperature and humidity, and can improve indoor air quality by considering indoor and outdoor fine dust concentrations and occupant behavior. There are advantages to improving.

Features, structures, effects, etc. described in the embodiments above are included in at least one embodiment of the present invention, and are not necessarily limited to only one embodiment. Furthermore, the features, structures, effects, etc. illustrated in each embodiment can be combined or modified with respect to other embodiments by a person having ordinary knowledge in the field to which the embodiments belong. Therefore, contents related to these combinations and variations should be construed as being included in the scope of the present invention.

In addition, although the above has been described with reference to the embodiments, these are merely examples and do not limit the present invention, and those skilled in the art to which the present invention belongs can exemplify the above to the extent that does not deviate from the essential characteristics of the present embodiment. It will be appreciated that various modifications and applications that have not been made are possible. For example, each component specifically shown in the embodiment can be modified and implemented. And the differences related to these modifications and applications should be construed as being included in the scope of the present invention as defined in the appended claims.

Claims (11)

indoor environmental appliances including ventilators, air purifiers and kitchen hoods; and
A control device for controlling an operation of at least one of the ventilator, the air purifier, and the kitchen hood based on indoor and outdoor fine dust concentrations when the indoor temperature and humidity fall within a set comfort range,
The control device,
a sensor module for measuring the temperature, the humidity, the indoor fine dust concentration, and the outdoor fine dust concentration; and
A control module configured to compare the indoor fine dust concentration with the outdoor fine dust concentration and control an operation of at least one of the ventilation device, the air purifier, and the kitchen hood when the temperature and the humidity fall within the comfort range. do,
The control module,
a calculation unit comparing the indoor fine dust concentration and the outdoor fine dust concentration to calculate a concentration difference value; and
An operating unit controlling an operation of at least one of the ventilation device, the air purifier, and the kitchen hood according to the concentration difference value;
The operation unit determines whether the temperature and the humidity fall within the comfort range before controlling the operation according to the concentration difference value.
Indoor climate control system. delete delete According to claim 1,
When the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a first reference concentration difference value range,
The operating unit,
Turning on the ventilation device and the kitchen hood according to the first reference concentration difference value,
Indoor climate control system. According to claim 1,
When the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a second reference concentration difference value range,
The operating unit,
turning on the ventilation device, the kitchen hood, and the air purifier according to the second reference concentration difference value;
Indoor climate control system. According to claim 1,
When the concentration difference value is lower than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a third reference concentration difference value range,
The operating unit,
Turning on the air purifier according to the third reference concentration difference value,
Indoor climate control system. Measuring indoor temperature, humidity, indoor fine dust concentration, and outdoor fine dust concentration;
determining whether the temperature and humidity fall within a set comfort range;
Comparing the indoor fine dust concentration and the outdoor fine dust concentration to calculate a concentration difference value, when it falls within the comfort range; and
Controlling the operation of at least one of a ventilation device, an air purifier, and a kitchen hood included in an indoor environment device based on the concentration difference value,
Operation method of indoor environment control system. According to claim 7,
If it does not fall within the above trajectory range,
Further comprising operating at least one of a heating device, a cooling device, a humidifier, and a dehumidifier so that the temperature and the humidity fall within the comfort range.
Operation method of indoor environment control system. According to claim 7,
The step of controlling the operation is,
Turning on the ventilation device and the kitchen hood according to the first reference concentration difference value when the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to a first reference concentration difference value range,
Operation method of indoor environment control system. According to claim 7,
The step of controlling the operation is,
When the concentration difference value is higher than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to the second reference concentration difference value range, the ventilation device, the kitchen hood, and the air purifier are operated according to the second reference concentration difference value. to operate on,
Operation method of indoor environment control system. According to claim 7,
The step of controlling the operation is,
When the concentration difference value is lower than the indoor fine dust concentration and the outdoor fine dust concentration and belongs to the third reference concentration difference value range, turning on the air purifier according to the third reference concentration difference value,
Operation method of indoor environment control system.

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