KR20160048241A - Smart air care system and control method thereof - Google Patents

Abstract

Disclosed are a smart air care system, and a control method thereof. According to one embodiment of the present invention, the smart air care system comprises: a contamination sensor pack where a plurality of contamination substance sensors are mounted; a power controller supplying power to a ventilation device; and a main controller calculating a contamination index for each contamination substance in accordance with a sensing value of each contamination substance sensor received from the contamination sensor pack, calculating an indoor air quality index by applying a preset weight to the contamination index for each contamination substance, and operating the ventilation device by controlling the power controller in accordance with the calculated indoor air quality index.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart air care system,

The present invention relates to a smart air care system and a control method thereof, and more particularly, to a smart air care system having a ventilation device for ventilating indoor air and a control method thereof.

The improvement of living standards due to the development of society and culture has brought about an interest in comfortable indoor environment. Especially, the air environment is actively being investigated as a cause of diseases such as Sick Building Syndrome to modern people living in a room for a long time.

Accordingly, it is necessary to operate the ventilator automatically according to the state of the indoor air quality to discharge pollutants in the indoor space, thereby maintaining the indoor space comfortably.

However, since the pollutants in the detectable room are limited in the past, and there is no connection with the ventilation device, there is a problem that the indoor indoor air quality management for the indoor space can not be implemented.

Korean Patent Publication No. 2012-0078960 (2012.07.11)

Embodiments of the present invention are directed to a smart air care system capable of realizing integrated indoor air quality management for an indoor space by automatically controlling a ventilation apparatus using an integrated pollution detection sensor pack implemented to detect various indoor air pollutants in real time, Control method.

According to an aspect of the present invention, there is provided a contamination detecting sensor pack including a plurality of pollutant sensors mounted therein; A power controller for supplying power to the ventilator; And calculating a pollution index for each pollutant according to the sensing value of each pollutant sensor received from the pollution detection sensor pack, and applying a predetermined weight to the calculated pollution index for each pollutant to calculate an indoor air quality index And a main controller for controlling the power controller according to the indoor air quality index to operate the ventilator.

And a status indicator for receiving the indoor air quality index from the main controller and for lighting an LED of a color corresponding to the received indoor air quality index.

Here, the contamination detection sensor pack may include at least three of a CO 2 sensor, a VOC (Volatile Organic Compounds) sensor, a NOx sensor, and a Smoke sensor, and the at least three sensors may be replaceably mounted .

Here, the predetermined weight may be set in the order of a Smoke sensor, a CO2 sensor, a VOC (Volatile Organic Compounds) sensor, and a NOx sensor.

According to another aspect of the present invention, there is provided a method for detecting contamination, comprising: detecting a sensing value of each pollutant through a pollution sensor pack equipped with a plurality of pollutant sensors; calculating a pollution index for each pollutant according to the sensed value; The indoor air quality index is calculated based on the pollution indices to which the predetermined weight is applied, and the indoor air quality index is calculated based on the calculated indoor air quality index. A control method of the care system can be provided.

The indoor air quality index may be calculated by comparing the calculated pollution indexes with a corresponding set index and if the calculated pollution indexes are lower than the predetermined indexes, And the indoor air quality index is calculated by applying a predetermined weight to the exponent.

The embodiment of the present invention can detect various indoor air pollutants in real time using the integrated pollution detection sensor pack, can perform comprehensive monitoring on the air quality of the indoor space, and can collect indoor air quality of the indoor space . Accordingly, it is possible to ventilate the indoor air automatically by operating the ventilation device as needed, and to provide an indoor indoor air quality service for the indoor space.

1 is a configuration diagram of a smart air care system according to an embodiment of the present invention.
2 is a block diagram of an indoor air quality sensor pack in a smart air care system according to an embodiment of the present invention.
3 is a block diagram of a main controller in a smart air care system according to an embodiment of the present invention.
4 is a configuration diagram of a power controller in a smart air care system according to an embodiment of the present invention.
5 is a configuration diagram of a status indicator in a smart air care system according to an embodiment of the present invention.
FIG. 6 is a control flow chart for explaining ventilation according to pollution index in a smart air care system according to an embodiment of the present invention.
FIG. 7 is a control flow chart for explaining indoor ventilation according to indoor air quality index in a smart air care system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments to be described below are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, etc. of components are exaggerated for the sake of convenience. Like reference numerals designate like elements throughout the specification.

1 is a configuration diagram of a smart air care system according to an embodiment of the present invention.

Referring to FIG. 1, the smart air care system includes a contamination detection sensor pack 100 configured to detect a plurality of contaminants, a main controller 200 that performs overall control of the smart air care system, And a status indicator 400 for displaying the indoor air quality index in a color-coded manner.

The main controller 200 is electrically connected to the contamination detection sensor pack 100. The main controller 200 detects each pollutant through the pollution detection sensor pack 100,

The pollution index is calculated for each pollutant according to the sensing value of each pollutant detected.

If the pollution index of each pollutant is higher than the predetermined index, the main controller 200 operates the ventilator or the hood device through the power controller 300 to ventilate the room where the pollution detection sensor pack 100 is installed .

Also, the main controller 200 calculates the indoor air quality index by applying predetermined weights to the calculated pollution indexes of the pollutants. At this time, if the pollution index for each pollutant is lower than the corresponding set index, the main controller 200 can calculate the indoor air quality index by applying a predetermined weight to the pollution index for each pollutant.

In addition, the main controller 200 operates the ventilator or the hood device through the power controller 300 based on the calculated indoor air quality index to ventilate the room where the contamination detection sensor pack 100 is installed.

In addition, the main controller 200 displays the calculated indoor air quality index information on the status indicator 400 so that the user can confirm the indoor air quality index information. The status indicator 400 displays indoors air quality indices in a color corresponding to indoor air quality index information provided by the main controller 200.

2 is a block diagram of an indoor air quality sensor pack in a smart air care system according to an embodiment of the present invention.

2, the contamination detection sensor pack 100 includes a sensor pack body 110 and a sensor pack board 120 mounted on the sensor pack body 110. The sensor pack board 120 is provided with three sensors 130, 131 and 132 for detecting air pollution sources, one temperature / humidity sensor 133 and a microcontroller unit (MCU) 134 are mounted. The sensor pack board 120 is connected to the main controller 200 using a connector 121. Further, the sensor pack board 120 electrically connects the three sensors 130, 131 and 132 through the sensor connector 122. For reference, the type of the sensor connected to the sensor connector 122 may be changed according to the installation environment, so that the sensor can be easily changed according to the installation environment.

The contamination detection sensor pack 100 is composed of a semiconductor type gas sensor for measuring the air pollution degree in the room. Semiconductor gas sensors detect air pollutant gases using changes in electrical conductivity that occur when a gas contacts a surface of a ceramic semiconductor.

The contamination detection sensor pack 100 is applied to a variety of sensors adapted to characteristics of the causes of contamination in application areas such as kitchens, living rooms, and bedrooms.

For example, the kitchen contamination sensor pack may be a carbon dioxide (CO2) sensor, a volatile organic compound (VOC) sensor, or a nitrogen oxide (NOx) sensor. Also, the living room contamination detection sensor pack may include a smoke sensor, a CO2 sensor, and a NOx sensor. Also, the contamination detecting sensor pack for a bedroom may include a smoke sensor, a CO2 sensor, and a VOC sensor.

In addition, the contamination detection sensor pack 100 may include a temperature / humidity sensor irrespective of an application area such as a kitchen, a living room, a bedroom, and the like.

Therefore, the contamination detection sensor pack 100 can detect three air pollution sources.

3 is a block diagram of a main controller in a smart air care system according to an embodiment of the present invention.

Referring to FIG. 3, the main controller 200 performs overall system operation and state management functions. And includes a main body 210 and a main board 220 mounted on the main body 210. The main board 220 is equipped with a microcontroller unit (MCU) 230, a power module 240, an RF module 250 and a display module 260 for performing overall control.

In the main board 220, the pollutant information detected by the contamination detection sensor pack 100 through the sensor pack interface 222 is provided to the MCU 230. The MCU 230 calculates the pollution index according to the pollutant information detected through the pollution detection sensor pack 100 and performs control for the ventilation operation according to the pollution index or calculates the indoor air quality index from the pollution index, And performs control for ventilation operation according to the air quality index.

The power module 240 supplies power to the components of the main board 220.

The RF module 250 wirelessly transmits a signal for controlling the power controller 300 for the ventilation operation through the antenna 251 according to the control signal of the MCU 230. [ At this time, the signal wirelessly transmitted from the RF module 250 to the power controller 300 may be a signal for controlling the ventilator in four stages, for example. The fourth stage may be a stop, a first stage start, a second stage start, a third stage, and the like.

The display module 260 includes LEDs of red (R), yellow (Y), and green (G), for example, and displays the color of the color corresponding to the pollution index or the indoor air quality index according to the control signal of the MCU Turn on the LED. For example, the higher the pollution index and the indoor air quality index, the more likely the color of the LED to be turned on varies from green to red. For reference, green is a state of low pollution index and indoors air quality index, and red is a state of high pollution index or high indoor air quality index.

4 is a configuration diagram of a power controller in a smart air care system according to an embodiment of the present invention.

Referring to FIG. 4, the power controller 300 supplies or cuts off the power to the ventilator or the kitchen hood. The power controller 300 receives the radio signal transmitted from the main controller 200 and activates or stops the ventilator or the kitchen hood apparatus according to the received signal. The power controller 300 can control the ventilation intensity by controlling the fan speed of the ventilation device or the hood device.

The power controller 300 may include a power controller body 310 and a power control board 320 mounted on the power controller body 310. The power supply control board 320 is equipped with a microcontroller unit (MCU) 330, a power supply module 340, an RF module 350 and a relay module 360 for performing overall control.

The MCU 330 receives the signal transmitted from the main controller 200 through the RF module 350 and controls the relay module 360 according to the received signal to operate or stop the ventilator or the hood device.

5 is a configuration diagram of a status indicator in a smart air care system according to an embodiment of the present invention.

5, the status indicator 400 receives information including the pollution index or the indoor air quality index provided from the main controller 200, and displays an LED of a corresponding color according to the received pollution index or indoor air quality index To inform the user of the pollution index or indoor air quality index.

The status indicator 400 may include a status indicator body 410 and a status display board 420 mounted on the status indicator body 410. A microcomputer unit (MCU) 430, a power module 440, an RF module 450, a display module 460, and a battery 470 are mounted on the status display board 420.

The MCU 430 receives the information including the pollution index or the indoor air quality index transmitted from the main controller 200 through the RF module 450 and responds to the pollution index or the indoor air quality index among the LEDs of the display module 360 The LED of the color is turned on.

FIG. 6 is a control flow chart for explaining ventilation according to pollution index in a smart air care system according to an embodiment of the present invention.

Referring to FIG. 6, the main controller 200 detects each pollutant through the pollution detection sensor pack 100 (500).

After each pollutant is detected through the pollution sensor pack 100, the main controller 200 calculates a pollution index for each pollutant detected (510).

After calculating the pollution index for each pollutant, the main controller 200 determines whether the pollution index for each pollutant exceeds the set index (520).

If the pollution index for each pollutant exceeds the predetermined index, the main controller 200 supplies power to the ventilator (and / or the hood apparatus) through the power controller 300, (And / or the hood apparatus) to operate the indoor space (530). At this time, the main controller 200 can adjust the ventilation intensity of the ventilation device (or the hood device) according to the degree of the contamination index exceeding the setting index. That is, the ventilation intensity can be controlled by activating the ventilation device according to the pollution index by one of the first stage start, the second stage start, and the third stage start classified by the rotation speed. Meanwhile, the main controller 200 stops the operation of the ventilator (and / or the hood apparatus) through the power controller 300 when the corresponding pollution index becomes lower than the set index.

On the other hand, if the contamination index for each pollutant is less than the set exponent as a result of the determination in the operation mode 520, the routine returns to the preset routine.

FIG. 7 is a control flow chart for explaining indoor ventilation according to indoor air quality index in a smart air care system according to an embodiment of the present invention.

Referring to FIG. 7, first, the main controller 200 detects each contaminant through the contamination detecting sensor pack 100 (600).

After each pollutant is detected through the pollution sensor pack 100, the main controller 200 calculates a pollution index for each pollutant detected (610).

After calculating the pollution index for each pollutant, the main controller 200 applies a predetermined weight to the calculated pollution index for each pollutant (620). For example, the weight of the smog in the pollutants may be set to the highest value, then set to be lower than the weight of the smog of the carbon dioxide, and then the weight of the nitrogen oxide may be set lower than that of carbon dioxide. That is, the weight can be set higher in the order of smog, carbon dioxide, and nitrogen oxide. This weight can be changed by the user's input. That is, the user can set the weight according to his or her preference in accordance with the living environment.

After applying predetermined weights to the pollution indices of the respective pollutants, the main controller 200 calculates indoor air quality indices based on the pollution indices to which the weights are applied (630). For example, the indoor air quality index may be a sum of the respective pollution indices or values corresponding to the pollution indices to which the predetermined weight is applied to the pollution indices of the respective pollutants.

After calculating the indoor air quality index, the main controller 200 determines whether the indoor air quality index exceeds the reference index (640).

If the indoor air quality index exceeds the reference index as a result of the determination in the operation mode 640, the main controller 200 supplies power to the ventilator (and / or the hood apparatus) through the power controller 300, And a hood device) to ventilate the indoor space. At this time, the main controller 200 can adjust the ventilation intensity of the ventilation device (or the hood device) according to the degree of indoor air quality index exceeding the reference index. That is, the ventilation intensity can be controlled by activating the ventilation device according to the indoor air quality index in any one of the first stage start, the second stage start, and the third stage start classified by the rotation speed. On the other hand, when the indoor air quality index becomes lower than the reference index, the main controller 200 stops operation of the ventilator (and / or the hood apparatus) through the power controller 300.

On the other hand, if the indoor air quality index is less than the reference index as a result of the determination in the operation mode 640, the main controller 200 transmits the indoor air quality index information to the status indicator 300 and displays a color corresponding to the indoor air quality index in the status indicator 300 (660).

100: Pollution detection sensor pack 200: Main controller
300: power controller 400: status indicator

Claims (6)

A contamination detection sensor pack equipped with a plurality of pollutant sensors;
A power controller for supplying power to the ventilator; And
Calculating a pollution index for each pollutant according to a sensing value of each pollutant sensor received from the pollution detection sensor pack, calculating an indoor air quality index by applying a predetermined weight to the calculated pollution index for each pollutant, And a main controller for controlling the power controller according to the indoor air quality index to operate the ventilator. The method according to claim 1,
And a status indicator for receiving the indoors air quality index from the main controller and lighting an LED of a color corresponding to the received indoor air quality index. The method according to claim 1,
Wherein the contamination detection sensor pack includes at least three of a CO 2 sensor, a VOC (Volatile Organic Compounds) sensor, a NOx sensor, and a Smoke sensor, and the at least three sensors are replaceably mounted. Care system. The method of claim 3,
Wherein the predetermined weight is set in the order of a Smoke sensor, a CO2 sensor, a VOC (Volatile Organic Compounds) sensor, and a NOx sensor. A sensing value of each contaminant is detected through a contaminant detection sensor pack equipped with a plurality of contaminant detection sensors,
A pollution index is calculated for each pollutant according to the sensed value,
Applying a predetermined weight to the calculated pollution index for each pollutant,
The indoor air quality index is calculated based on the pollution indices to which the predetermined weight is applied,
And operating the ventilator in accordance with the calculated indoors air quality index. 6. The method of claim 5,
The indoor air quality index is calculated by comparing the calculated pollution indexes with a corresponding set index, and if the calculated pollution indexes are lower than the corresponding set indexes, the calculated indoor pollution indexes Wherein the indoor air quality index is calculated by applying a predetermined weight to the indoor air quality index.

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