KR101305772B1 - System for controlling indoor surroundings using remote controller for having a function indoor air measurement - Google Patents

Abstract

PURPOSE: A system for controlling an indoor environment by using a remote control including the function to measure indoor air quality is provided to maintain indoor air quality desired by a user by using a remote control arranged near the user, which measures the air quality around the user. CONSTITUTION: A system for controlling an indoor environment by using a remote control including the function to measure indoor air quality includes a remote control (100), a central control unit (200), and a device (300). The remote control includes a sensor unit (110), a transceiver (130), and an input unit (150). The input unit includes a ventilation mode selection key with a normal ventilation mode and an automatic ventilation mode. The central control unit operates a relevant device on a real time basis depending on real-time specific data beyond the range of reference data after comparing the measured data transmitted from the remote control with the reference data when the normal ventilation mode is selected from the ventilation mode selection key of the remote control. The central control unit operates a relevant device for a determined time at the time period much beyond the range of the reference data after calculating the average of the specific data for each time period for a determined time by using the measured data stored in a database when the automatic ventilation mode is selected from the ventilation mode selection key of the remote control. The device is operated depending on the control signal of the central control unit and improves the indoor air quality so that the specific data may be included in the range of the reference data. [Reference numerals] (110) Sensor unit; (120) Control unit; (130) Transceiver; (140) Display unit; (150) Input unit; (160) Database; (170) Alarm sound generating unit; (311) Total heat exchanger; (312) Air conditioner; (313) Air purifier; (320) Heating and cooling device; (330) Humidifying/dehumidifying device

Description

System for Controlling Indoor Surroundings using Remote Controller for Having a Function Indoor Air Measurement}

The present invention relates to a indoor environment control system using a remote control having a indoor air quality measurement function, and more particularly, a remote control disposed close to a user measures the state of indoor air in real time and indoors installed using indoor measurement data. The present invention relates to an indoor environmental control system using a remote controller having an indoor air quality measurement function to improve indoor air quality by automatically controlling the operation of equipment to improve the environment.

In general, the quality of air in a room can be determined by carbon dioxide, which is caused by various factors such as the breathing of ordinary people, heating appliances, and kitchen appliances. The increased content of carbon dioxide (CO2) will interfere with the breathing of the inner chamber.

Therefore, when a lot of people stay in a narrow space such as an occupancy space such as an apartment, an office or a public transportation, the indoor polluted air should be replaced with fresh air of the outside frequently.

In addition, the indoor air quality may be determined not only by the amount of carbon dioxide, but also by temperature and humidity.

According to the Ministry of Environment's indoor air quality control data, the standard for maintaining temperature and humidity is as follows.

Maintaining temperatures are 24 ° C to 28 ° C and 60% humidity in summer, 19 ° C to 23 ° C and 50% humidity in spring and autumn, 18 ° C to 20 ° C and 40% humidity in winter. .

If such temperature and humidity are not maintained, the discomfort index felt by the insider becomes high.

In order to maintain such a comfortable indoor environment, it can be seen that proper maintenance of temperature and humidity as well as exhaust of carbon dioxide is required.

Therefore, recently, a ventilation system for automatically ventilating according to indoor air conditions has been introduced, and systems for maintaining temperature and humidity have been constructed and used.

However, in the existing ventilation system, a sensor for detecting the pollution level of the indoor air is attached to the indoor air intake part of the ventilation device to measure the pollution level of the indoor air, and the system for maintaining temperature and humidity detects temperature and humidity. The sensor is installed in a device for maintaining temperature and humidity, such as an air conditioner and a humidifier / dehumidifier, to measure indoor temperature and humidity.

Devices for improving the indoor environment such as ventilation and air conditioners are mainly installed at the upper part of the ceiling or wall of the room, so the measured air quality may be substantially different from the air quality around the user. Since the pollution level is not measured, there is a problem in that the user cannot maintain the indoor air quality as desired. In addition, there is a hassle to control each system separately, there is a problem that it is difficult to properly operate the equipment required to improve the indoor air quality.

Korea Patent Registration: 10-0722270 (Notice date 2007. 05. 28)

Korea Patent Registration: 10-0629345 (Notice date 2006. 09. 29)

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems,

An object of the present invention is to measure the state of the indoor air around the user in real time, the remote control disposed close to the user in real time, and when the specific data out of the reference data range by comparing the measured data and the predetermined reference data occurs the specific data of the reference data It is to provide an indoor environment control system using a remote control having a indoor air quality measurement function that can improve the quality of indoor air by applying the operation signal to the device that improves indoor air to be included in the range to run the device in real time. .

Indoor environment control system using a remote control having a indoor air quality measurement function of the present invention provided to achieve the above object is a sensor unit for measuring the indoor air condition in real time, and the data measured by the sensor unit in real time A remote controller including a transmission / reception unit for transmitting to a control unit and an input unit for inputting a signal for controlling the device, wherein the input unit includes a ventilation mode selection key divided into a general ventilation mode and an automatic ventilation mode; Receives the measured data from the remote control and stores it in a database, and compares the measured data with a predetermined reference data and when a specific data out of the range of the reference data occurs, the control signal to the corresponding device to include the specific data in the reference data range When the general ventilation mode is selected from the ventilation mode selection key of the remote control, the measured data transmitted from the remote control and the preset reference data are compared in real time, and then corresponding to the real time specific data outside the range of the reference data. When the device is turned on and the automatic ventilation mode is selected from the ventilation mode selection key on the remote controller, the average data for each period of time is calculated using the measured data stored in the database. For a period of time A central control unit controlling to operate; And a device operated according to a control signal of the central controller to improve indoor air so that specific data is included in a reference data range.
The sensor unit may include any one or more of a carbon dioxide sensor, an LPG / LNG sensor, a nitrogen dioxide sensor, a carbon monoxide sensor, a temperature sensor, a humidity sensor, and a dust concentration sensor.
And, if the alarm range of the reference data is set in advance, and the measurement data is included in the alarm range, the central control unit generates an alarm sound signal and transmits it to the remote control, the remote control receives the alarm sound signal to generate an alarm sound Alarm sound generating unit is characterized in that it is provided.
The device may include any one or more of a ventilation device, an air conditioner, a humidifier / dehumidifier, and the ventilation device includes one or more of a total heat exchanger, an air conditioner, and an air purifier.

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According to the indoor environment control system using the remote control having the indoor air quality measurement function of the present invention, the remote control disposed near the user in real time to measure the state of the indoor air around the user, by comparing the real-time measurement data and the predetermined reference data When specific data out of the data range occurs, the operation signal is applied to the device that improves the indoor air so that the specific data is included in the range of the reference data. There is an effect that can be maintained.

In addition, the remote controller placed near the user can maintain the indoor air quality as desired by the user by measuring the air quality around the user, and actively utilizes the device by automatically controlling the devices for improving the indoor environment. It is possible to improve the practicality and convenience due to convenient operation.

1 is a block diagram showing the configuration of a remote control having a indoor air quality measurement function according to an embodiment of the present invention.
Figure 2 is a front view showing a remote control having a indoor air quality measurement function according to an embodiment of the present invention.
Figure 3 is a block diagram showing the configuration of the indoor environment control system using a remote control for measuring the quality of indoor air in real time according to another aspect of the present invention.
Figure 4 is a block diagram of a remote control for measuring the quality of the indoor air in real time according to another aspect of the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings will be described in detail the indoor environment control system using a remote control having a indoor air quality measurement function of the present invention. For purposes of this specification, like reference numerals in the drawings denote like elements unless otherwise indicated.

1 is a block diagram showing a configuration of a remote control having a indoor air quality measurement function according to an embodiment of the present invention, Figure 2 is a front view showing a remote control having a indoor air quality measurement function according to an embodiment of the present invention. .

1 and 2, the remote control 100 having the indoor air quality measurement function according to an embodiment of the present invention is a sensor unit for measuring the state of the indoor air in real time to transmit the measured data to the controller in real time (110) compares the measurement data transmitted from the sensor unit with the preset reference data and sends a control signal to a device that improves indoor air so that the specific data is included in the reference data range when specific data outside the range of the reference data is generated. The control unit 120 to generate, and the transceiver 130 for transmitting the control signal of the control unit to the device.

The apparatus 300 for improving indoor air includes a ventilator 310, an air conditioner 320, a humidifier / dehumidifier 330, which may be installed indoors, and the ventilator 310 includes a heat exchanger 311 and air. A conditioner 312, an air cleaner 313, and the like.

The sensor unit 110 includes a carbon dioxide sensor, a LPG / LNG sensor, a nitrogen dioxide sensor, a carbon monoxide sensor, a temperature sensor, a humidity sensor, and a dust concentration sensor. These sensors measure the state of indoor air in real time and transmit the measurement data to the control unit 120 in real time.

Here, the measurement data refers to data including all carbon dioxide concentration, LPG / LNG concentration, nitrogen dioxide concentration, carbon monoxide concentration, temperature, humidity, dust concentration measured by each sensor. In addition, the specific data refers to data that is out of the range of the reference data by comparing measured data measured by various sensors with preset reference data.

In addition, carbon dioxide sensor, LPG / LNG sensor, nitrogen dioxide sensor and carbon monoxide sensor indicate the air pollution by detecting carbon dioxide, LPG / LNG, nitrogen dioxide and carbon monoxide contained in the indoor air, temperature sensor, humidity sensor In addition, dust concentration sensors detect air temperature by detecting indoor temperature, humidity and dust concentration.

The controller 120 compares the measurement data transmitted from the sensor unit 110 with the preset reference data and generates a control signal in the corresponding device 300 corresponding to the specific data that is out of the range of the reference data. Here, the reference data preset in the control unit 120 is set based on the preferred indoor air quality management data presented by the environment.

The control unit 120 may generate a control signal to the corresponding device 300 corresponding to the specific data that is out of the range of the reference data, respectively, but may be controlled by separating the ventilation mode and the comfortable mode according to the specific data that is out of the reference data range. It may be.

Ventilation mode is an air conditioner, heat transfer to ventilate the indoor air when the carbon dioxide concentration, LPG / LNG concentration, nitrogen dioxide concentration, carbon monoxide concentration, dust concentration in the measured data transmitted from the sensor 110 is out of the standard data range The operation signal is applied to the ventilation device 310 consisting of an exchanger and an air cleaner.

In addition, the comfort mode applies an operation signal to the air conditioner 320 and the humidifier / dehumidifier 330 to adjust the temperature and humidity when the room temperature and humidity are outside the reference data range in the measured data transmitted from the sensor unit 110. do.

In addition, the controller 120 generates an alarm sound signal when the alarm range of the reference data is preset and the data measured by the sensor is included in the alarm range.

On the other hand, the transceiver 130 may be made of wireless, such as Bluetooth, Zigbee (Zigbee) communication module, or may be made of a wire such as PLC communication module.

In addition, the remote controller 100 includes a display unit 140 displaying data measured by the sensor unit 110, an input unit 150 for inputting a user selection signal for driving the device, and a sensor unit 110. It may further include a database 160 for storing one data, and an alarm sound generating unit 170 for receiving an alarm sound signal from the control unit 120 to generate an alarm sound.

Here, the display unit 140 displays data measured by the sensor unit 110 as numbers, diagrams, graphs, or the like, or displays the current air pollution degree and air comfort as a whole, and displays data related to the air pollution degree. It can also display by dividing into 1 display part and the 2nd display part which displays the data concerning air comfort degree.

The input unit 150 includes an operation / stop key 151 for controlling the operation of the system, an apparatus selection key 152 for individually controlling the apparatus, a sleep mode key 153, an air volume control key 154, It may include a power saving mode key 155 and an up / down key 156.

Here, the device selection key 152 may individually select and control the ventilation device 310, the air conditioner 320, and the humidifier / dehumidifier 330. For example, if the operation key 151 is selected without selecting the device in the device selection key 152, the system operation is performed, but the air conditioner 320 is selected from the device selection key 152, and the operation key 151 is selected. If selected, only the air conditioner 320 is individually controlled so that only the air conditioner 320 operates.

The sleep mode key 153 generates a signal for operating the device as 'about' when the corresponding device 300 corresponding to the specific data out of the range of the reference data is operated.

In addition, the power saving mode key 155 generates a signal to save power by lengthening the operation period of the device when the corresponding device 300 corresponding to the specific data out of the range of the reference data is operated.

In addition, the air volume intensity adjustment key 154 and the up / down keys 156 are ventilated according to the degree of carbon dioxide (CO ₂ ) concentration, LPG / LNG concentration, nitrogen dioxide concentration, carbon monoxide concentration, dust concentration of the measured data deviating from the reference data. The air volume intensity of the device 300 is adjusted to 'weak', 'medium', 'strong' or the air volume intensity is adjusted using the up / down keys. For example, when the concentration of carbon dioxide in the measurement data greatly exceeds the reference data, the air volume intensity of the ventilation device 300 is set to 'strong' or the air velocity is up (up) to quickly ventilate the indoor air.

In this case, the sleep mode key 153, the air volume intensity adjustment key 154, the power saving mode key 155, and the up / down key 156 may be controlled even when the device 300 selected by the device selection key 152 is individually controlled. Will do the same.

Referring to the operation of the remote control having the indoor air quality measurement function according to an aspect of the present invention configured as described above are as follows.

First, when the operation key 151 of the remote control 100 disposed near the user is pressed, the sensors of the sensor unit 110 embedded in the remote control 100 measure the state of indoor air around the user in real time. Here, the sensor unit 110 detects the concentration of carbon dioxide, LPG / LNG, nitrogen dioxide, and carbon monoxide contained in the air to measure the air pollution, and detects the temperature, humidity, and dust concentration to measure air comfort.

In addition, the data measured by the sensor unit 110 is displayed on the display unit 140 so that a user can check it and stored in the database 160. In addition, it is transmitted to the control unit 120 and compared with the preset reference data. As a result of the comparison, when specific data out of the range of the reference data is generated, the controller 120 applies an operation signal to the corresponding device 300 which can improve indoor air so that the specific data is included in the reference data range.

In this case, the user may select a method of controlling the device 300 through the sleep mode key 153 and the power saving mode key 155 provided in the input unit 150 of the remote controller. For example, when the user selects the sleep mode key 153, the control unit 120 controls the device 300 to operate in the 'about' operation in real time while operating the device 300 according to specific data. If the power saving mode key 155 is selected, the control unit 120 controls the device 300 to operate in real time according to specific data, but to extend the power cycle of the device 300 to save power.

In addition, when the measurement data is compared with the preset reference data, when the measurement data is included in the alarm range of the reference data, the control unit 120 transmits an alarm sound signal indicating a danger to the alarm sound generating unit, and receives the alarm sound signal. The alarm sound generating unit 170 generates an alarm sound to notify the user of a dangerous situation.

As described above, in the present invention, when the remote controller disposed near the user measures the quality of air around the user in real time and compares the measured data with the preset reference data, when the specific data out of the reference data occurs, the specific data is in the reference data range. By applying the operation signal to the corresponding device corresponding to the specific data to be included in the to improve the quality of the indoor air.

Figure 3 is a block diagram showing the configuration of the indoor environment control system using a remote control for measuring the quality of the indoor air in real time according to another aspect of the present invention, Figure 4 is a quality of the indoor air according to another aspect of the present invention This is a block diagram of the remote controller to measure in real time.

According to another aspect of the present invention, an indoor environment control system using a remote controller for measuring indoor air quality in real time includes a remote controller 100, a central controller 200, and an apparatus 300 for improving an indoor environment.

According to the present invention, the remote controller 100 disposed near the user measures the quality of indoor air such as air pollution and air comfort around the user in real time, and transmits the measured data to the central controller 200, and the central controller 200 When the measurement data transmitted from the remote controller 100 and the predetermined reference data are compared to generate specific data out of the range of the reference data, the operation signal is transmitted to the corresponding device 300 corresponding to the specific data so that the specific data is included in the reference data range. Apply. And, in order to improve the indoor environment, the devices 300 installed indoors are operated according to the control signal of the central controller 200 to improve the indoor air so that specific data outside the range of the reference data is included in the reference data range.

Here, the device 300 includes a ventilation device 310, an air conditioner 320, a humidifier / dehumidifier 330, which can be installed indoors, and the ventilation device 310 includes a heat exchanger 311 and an air conditioner ( 312), air cleaner 313 and the like.

In addition, the remote controller 100 transmits the sensor unit 110 to measure the quality of indoor air in real time, such as air pollution and air comfort around the user, and the data measured by the sensor unit 110 to the central controller 200. A transmission / reception unit 120 to display the data measured by the sensor unit 110 or a display unit 140 to display the current air pollution degree and air comfort level based on the measurement data, and a user selection signal for driving the device. It includes an input unit 150 for inputting, and an alarm sound generating unit 170 for generating an alarm sound when any one of carbon dioxide (CO ₂ ) concentration, LPG / LNG concentration, temperature of the measurement data significantly out of the reference data do.

The sensor unit 110 includes a carbon dioxide sensor, a LPG / LNG sensor, a nitrogen dioxide sensor, a carbon monoxide sensor, a temperature sensor, a humidity sensor, and a dust concentration sensor.

Here, the measurement data refers to data including all carbon dioxide concentration, LPG / LNG concentration, nitrogen dioxide concentration, carbon monoxide concentration, temperature, humidity, dust concentration measured by each sensor. The specific data refers to data that is out of the range of the reference data by comparing measured data measured by various sensors with preset reference data.

In addition, carbon dioxide sensor, LPG / LNG sensor, nitrogen dioxide sensor and carbon monoxide sensor indicate the air pollution by detecting carbon dioxide, LPG / LNG, nitrogen dioxide and carbon monoxide contained in the indoor air, temperature sensor, humidity sensor In addition, dust concentration sensors detect the air quality by detecting indoor temperature, humidity and dust concentration.

The display unit 140 displays the data measured by the sensor unit in numbers, diagrams, graphs, etc., or displays the current air pollution degree and air comfort as a whole, and displays the data related to the air pollution degree, and air. The display may be divided and displayed by a second display unit for displaying data relating to comfort.

The input unit 150 includes an operation / stop key 151, a sleep mode key 153, a power saving mode key 155, and a ventilation mode selection key 157 for controlling the operation of the system, and a ventilation mode selection key 157. ) Is divided into a general ventilation mode 157a and an automatic ventilation mode 157b.

Here, the general ventilation mode 157a generates a signal for the central control unit 200 to operate the corresponding device 300 in real time according to the specific data, and the automatic ventilation mode 157b is specified by the central control unit 200. After calculating the average for each period of time for the data for a period of time and generates a signal to operate the device 300 for a predetermined time in a time zone that most out of the range of the reference data. That is, the user selects one of the general ventilation mode 157a and the automatic ventilation mode 157b to select a method in which the central control unit 200 controls the devices 300.

In addition, when the user selects the sleep mode key 153, the central control unit 200 operates in the general ventilation mode 157a for operating the device 300 in real time according to specific data, but operates the device as 'about'. To generate a signal.

In addition, the power saving mode key 155 operates in the general ventilation mode 157a in which the central control unit 200 operates the device 300 in real time according to specific data when the user selects the power saving mode key 155. It generates a signal to make the power saving by long.

The central controller 200 may include a transceiver 210 for receiving measurement data transmitted from the remote controller 100, a database 220 for storing measurement data received by the transceiver 210, and received measurement data. The control unit 230 may compare the preset reference data and generate a control signal to a corresponding device corresponding to the specific data that is out of the range of the reference data. Here, the reference data preset in the control unit 230 is set based on the preferred indoor air quality management data presented by the environment.

The controller 230 may generate a control signal to the corresponding device 300 corresponding to the specific data that is out of the range of the reference data. It may be.

Ventilation mode is an air conditioner, heat exchanger to ventilate the indoor air when the carbon dioxide concentration, LPG / LNG concentration, nitrogen dioxide concentration, carbon monoxide concentration, dust concentration in the measured data transmitted from the remote control 100 is out of the range of the reference data , The operation signal is applied to the ventilation device (310) consisting of air cleaners.

In addition, the comfort mode applies an operation signal to the air conditioner 320 and the humidifier / dehumidifier 330 to adjust the temperature and humidity when the room temperature and humidity are outside the reference data range in the measured data transmitted from the remote controller 100. .

At this time, the control unit 230 to perform the ventilation in real time based on a specific data in accordance with the user selection of the general ventilation mode 157a and the automatic ventilation mode 157b in the ventilation mode selection unit of the remote control 100 in the ventilation mode, The ventilation device 300 is controlled so that the ventilation is performed for a predetermined time in a time zone where the specific data deviates from the reference data most.

In addition, the controller 230 adjusts the air volume intensity of the ventilation device 300 according to the degree to which the carbon dioxide (CO ₂ ) concentration, the LPG / LNG concentration, the nitrogen dioxide concentration, the carbon monoxide concentration, and the dust concentration of the measured data deviate from the reference data. Adjust to 'medium' or 'strong'. That is, when the concentration of carbon dioxide in the measurement data greatly exceeds the reference data, the air volume intensity of the ventilation device 300 is set to 'strong' so that the indoor air is rapidly vented.

In addition, the controller 230 generates an alarm sound signal notifying the remote controller 100 of any danger when any one of carbon dioxide (CO ₂ ) concentration, LPG / LNG concentration, and temperature of the measured data deviates significantly from the reference data, and generates an alarm. The remote control 100 receiving the sound signal generates an alarm sound from the alarm sound generating unit 170 to inform the user of a dangerous situation.

In addition, the controller 230 operates in the general ventilation mode 157a for operating the corresponding device 300 in real time according to specific data when the user selects the sleep mode key 153 from the remote controller 100, but the ventilation device 300 ) Is operated to 'weak'.

In addition, the controller 230 operates in the general ventilation mode 157a for operating the corresponding device in real time according to specific data when the user selects the power saving mode key 155 on the remote controller 100, but operates the ventilation device 300. Control the energy saving by making the cycle longer.

Meanwhile, the transceivers 130 and 210 of the remote controller and the central controller may be wirelessly formed such as Bluetooth, Zigbee communication module or wired such as PLC communication module.

Referring to the operation of the indoor environment control system using a remote control for measuring the quality of the indoor air in real time according to an embodiment of the present invention configured as described above are as follows.

First, when the operation key 151 of the remote control 100 disposed near the user is pressed, the sensors of the sensor unit 110 embedded in the remote control 100 measure the quality of indoor air around the user in real time while the system is running. do. Here, the sensor unit 110 detects the concentration of carbon dioxide, LPG / LNG, nitrogen dioxide, and carbon monoxide contained in the air to measure the air pollution, and detects the temperature, humidity, and dust concentration to measure air comfort.

In addition, the data measured by the sensor unit 110 is displayed on the display unit 140 of the remote control 100 so that the user can check, and is also transmitted to the central control unit 200 through the transmission and reception unit 130 of the remote control.

Subsequently, the measurement data transmitted to the central controller 200 is stored in the database 220 and transmitted to the controller 230 and compared with the preset reference data. As a result of the comparison, when specific data out of the range of the reference data is generated, the controller 230 applies an operation signal to the corresponding device 300 which can improve the specific data to be included in the reference data range. For example, when the carbon dioxide concentration of the measurement data exceeds the range of the carbon dioxide concentration of the reference data, the controller 230 operates a ventilation device 310 such as an electric heat exchanger, an air conditioner, an air cleaner, and the like installed indoors. Ventilate the room air. When the concentration of carbon dioxide measured in real time by the sensor unit 110 of the remote controller 100 is included in the range of the carbon dioxide concentration of the reference data after the ventilation, the controller 230 stops the operation of the ventilation device 310. In another example, when the temperature of the measurement data exceeds the temperature range of the reference data, the controller 230 operates the air conditioner 320 installed in the room so that the temperature of the room is included in the temperature range of the reference data. When the real-time temperature of the room is included in the temperature range of the reference data after the air conditioner 320 is operated, the controller 230 stops the operation of the air conditioner 320.

In this case, the user may control the device 300 by the central control unit 200 through the sleep mode key 153, the power saving mode key 155, and the ventilation mode selection key 157 provided in the input unit 150 of the remote controller 100. You can choose how to control. For example, when the user selects the general ventilation mode 157a from the ventilation mode selection key 157 of the remote controller 100, the control unit 230 of the central controller of the central control unit may specify a real-time specification that is outside the range of the reference data. When the corresponding device 300 is operated in real time according to the data, and the automatic ventilation mode 157b is selected, the control unit 230 of the central control unit uses the measured data stored in the database 220 for a certain period of time for the specific data. Then, the device 300 is operated for a predetermined time in a time zone that deviates most from the range of reference data.

In addition, when the user selects the sleep mode key 153, the controller 230 operates in the general ventilation mode 157a for operating the device 300 in real time according to specific data, but the device 300 is about Control to operate.

In addition, when the user selects the power saving mode key 155, the control unit 230 operates in the general ventilation mode 157a for operating the device 300 in real time according to the specific data, but the operating cycle of the device 300. Long press to control power saving.

In addition, when any one of carbon dioxide (CO ₂ ) concentration, LPG / LNG concentration, temperature of the measurement data and the comparison result of the preset reference data significantly out of the reference data, the controller 230 is dangerous to the remote control 100 Transmitting the alarm sound signal to inform the, the remote control 100 receiving the alarm sound signal generates an alarm sound from the alarm sound generating unit 170 to inform the user of a dangerous situation.

As described above, in the present invention, the remote controller disposed near the user measures the air quality around the user in real time and transmits the measurement data to the central controller, and the central controller compares the measured data transmitted from the remote controller with the preset reference data. When specific data out of the range of the specific data is included in the reference data range to improve the indoor air quality by applying the operation signal to the device that can improve the indoor air to operate the device.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims, And equivalents may be resorted to as falling within the scope of the invention.

100: remote controller 110: sensor unit
120: Control section 130: Transmitting /
140: display unit 150: input unit
151: run / stop key 152: device selection key
153: Sleep mode key 154: Air volume control key
155: power saving mode key 156: up / down keys
157: Ventilation mode selection key 157a: Normal ventilation mode
157b: automatic ventilation mode 160: database
170: alarm sound generating unit 200: central control unit
210: transceiver 220: database
230: control unit 300: device
310: ventilation device 311: total heat exchanger
312: air conditioner 313: air cleaner
320: air conditioning unit 330: humidifier / dehumidifier

Claims (16)

delete delete delete delete delete delete A sensor unit for measuring indoor air condition in real time, a transmitter / receiver for transmitting data measured by the sensor unit to the central control unit in real time, and an input unit for inputting a signal for controlling the device, the input unit having general ventilation A remote control including a mode and a ventilation mode selection key classified into an automatic ventilation mode;
Receives the measured data from the remote control and stores it in a database, and compares the measured data with a predetermined reference data and when a specific data out of the range of the reference data occurs, the control signal to the corresponding device to include the specific data in the reference data range When the general ventilation mode is selected from the ventilation mode selection key of the remote control, the measured data transmitted from the remote control and the preset reference data are compared in real time, and then corresponding to the real time specific data outside the range of the reference data. When the device is turned on and the automatic ventilation mode is selected from the ventilation mode selection key on the remote controller, the average data for each period of time is calculated using the measured data stored in the database. For a period of time A central control unit controlling to operate;
A device operated according to a control signal of the central controller to improve indoor air so that specific data is included in a reference data range;
Indoor environment control system using a remote control having a indoor air quality measurement function comprising a. delete The method of claim 7, wherein
The sensor unit includes a carbon dioxide sensor, LPG / LNG sensor, nitrogen dioxide sensor, carbon monoxide sensor, temperature sensor, humidity sensor, dust concentration sensor any one or more of the indoor air quality measurement function, characterized in that Indoor environmental control system using a remote control having. delete delete delete delete The method of claim 7, wherein
The central controller generates an alarm sound signal and transmits the alarm sound signal to the remote control when the alarm range of the reference data is preset, and the measurement data is included in the alarm range. Indoor environment control system using a remote control having a indoor air quality measurement function, characterized in that the generator is provided. The method of claim 7, wherein
The device is a indoor environment control system using a remote control having a indoor air quality measurement function, characterized in that any one or more of a ventilation device, air conditioner, humidifier / dehumidifier. The method of claim 15,
The ventilation device is an indoor environment control system using a remote control having an indoor air quality measurement function, characterized in that it comprises any one or more of a total heat exchanger, an air conditioner, an air purifier.

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