KR101034957B1 - Integrated Switch Control Method of Intelligent Home Network System and Intelligent Home Network System - Google Patents

Abstract

The present invention relates to an intelligent home network system for controlling heating devices and lighting devices by using an infrared sensor, an ultrasonic sensor, and a sound sensor to detect the presence of a resident in a room.
To this end, in particular, the sensing unit (110, 150) for detecting an external environmental change, and outputs a signal corresponding to the environmental change; A display unit 211 displaying time, temperature, and humidity, a room selection switch unit 212 for selecting at least one room of a home network, and a light control switch unit 213 for controlling a lighting device 511 installed in the room. ), A communication unit 215 for communicating with an external device, a control unit 216 for receiving a signal from the detection units 110 and 150 and outputting a corresponding signal to the home appliance 510 installed in a home network, and supplying power. A plurality of integrated switches 210 including a power supply unit 217 and a heating temperature setting unit 214 for setting a heating temperature of the room; An integrated remote control 310 for remotely selecting a room to control the lighting device 511 of the room and controlling the operation of the home appliance 510 installed in the home network; And a monitoring system 410 that receives and monitors signals from the plurality of integrated switches 210 installed in the home network, and outputs a signal corresponding thereto to the home appliance 510 installed in the home network. An intelligent home network system is disclosed.

Description

Integrated switch control method of intelligent home network system and intelligent home network system {Intelligence form home network system and control method

The present invention relates to an intelligent home network system and a control method of an integrated switch, and more particularly, an intelligent home network system for acquiring environmental information through various sensors and controlling various electronic devices installed in the home network using the same; It relates to a control method of an integrated switch.

Recently, ubiquitous has been put into practical use to provide information and communication that allows users to connect to the network freely regardless of the location of the network or computer. When such ubiquitous becomes popular, information technology can be utilized not only in the home but also in the outside and remote areas. However, for the ubiquitous network to be realized, the advancement of information technology such as generalization of broadband communication and convergence technology, and low price of information technology equipment should be premised. Ubiquitous is not yet common due to these limitations, but there is a global development competition not only because of portability and convenience, but also because of the advantages of accessing the network regardless of time and place.

Along with such ubiquitous, the development of next-generation short-range wireless communication such as Zigbee or Bluetooth is providing a technology to build a home ubiquitous network environment. In particular, Zigbee is one of the IEEE 802.15.4 standards supporting near field communication, and is a technology for near field communication and ubiquitous computing of about 10m to 1km in wireless networking fields such as homes and offices. Data can be transmitted at a rate of 250 Kbps within a radius of 1 km, and this mesh network structure can connect about 255 devices to one wireless network. Therefore, ZigBee is evaluated to be suitable for simple wireless control such as lighting control, heating control, gas valve blocking, etc. in home networking.

Home automation using the above-described communication module such as Zigbee or Bluetooth, the automatic control of home appliances in the home remotely has reached the commercialization stage with the development of technology. In the early days of home automation, each device was controlled separately using a telephone or an infrared ray, and no connection was made between the devices, but now a communication network is used to establish a network between home appliances and control the network. It uses a method that puts a controller and integrates it. In addition, a newly built apartment or house can enjoy a convenient and safe life using a home network system. In particular, by establishing a heating system to control the heating temperature in each room required time, it is possible to save 25-30% of the heating cost compared to the existing heating system.

However, in the apartment apartment or house, it is necessary to install a separate power line or communication line in order to build a home network, and thus, there is a limitation in constructing a home network because it requires a lot of cost and construction is difficult.

Therefore, in the technical field of the present invention, the development of a home network system using a communication method suitable for a ubiquitous environment has been required.

Therefore, the present invention has been created to solve the above problems, an intelligent home network that can adjust the heating device and the lighting device using an infrared sensor, ultrasonic sensor, sound sensor to detect the presence of residents in the room The purpose is to provide a system.

In addition, an object of the present invention is to provide a fire detection system that can correct the error of the sensor by using a fire sensor and a temperature sensor.

In addition, an object of the present invention is to provide a fire alarm and notification system according to the fire and smoking by mounting a fire sensor and a cigarette smoke detection sensor.

Another object of the present invention is to provide a control method of an integrated switch.

An object of the present invention described above, the sensing unit 110, 150 for detecting an external environmental change, and outputs a signal corresponding to the environmental change; A display unit 211 displaying time, temperature, and humidity, a room selection switch unit 212 for selecting at least one room of a home network, and a light control switch unit 213 for controlling a lighting device 511 installed in the room. ), A control unit 216 for receiving a signal from the communication unit 215 and the detection unit 110, 150 for communicating with the external device and outputting a signal corresponding to the home appliance 510 installed in the home network, for supplying power. A plurality of integrated switches 210 including a power supply unit 217 and a heating temperature setting unit 214 for setting a heating temperature of the room; An integrated remote control 310 for remotely selecting a room to control the lighting device 511 of the room and controlling the operation of the home appliance 510 installed in the home network; And a monitoring system 410 that receives and monitors signals from the plurality of integrated switches 210 installed in the home network, and outputs a signal corresponding to the home appliance 510 installed in the home network. By providing a home network system.

In addition, the integrated switch 210 or the monitoring system 410 is based on the signal of the CDS sensor 119 for measuring the illuminance of each room and the external CDS sensor 155 for measuring the illuminance of the external environment to the lighting device 511. And control the ventilation of each room from the outside to the inside or outside based on the signals of the air pollution measurement sensor 120 for measuring the air pollution of each room and the external air pollution measurement sensor 157 for measuring the air pollution of the external environment. It is preferable to switch to the inside to control the fan 512 or the air conditioner 513.

In addition, the integrated switch 210 or the monitoring system 410 is a signal of the infrared sensor 114, the ultrasonic sensor 115, and the sound sensor 116 to detect the presence of people in each room and whether the density of people, And controlling the heating apparatus 514 based on the signals of the temperature sensor 111, the humidity sensor 118, the external temperature sensor 151, and the external humidity sensor 153.

In addition, the integrated switch 210 or the monitoring system 410 detects the fire based on the signal of the temperature sensor 111, the fire detection sensor 112, and the cigarette smoke detection sensor 113, and issues a fire alarm. It is desirable to provide a fire notification.

In addition, the integrated switch 210 or the monitoring system 410 is installed in front of and behind the door of each room, the infrared sensor 114, the ultrasonic sensor 115 to measure the number of people remaining in each room by monitoring the entrance of the person. And, it is preferable to control the lighting device 511 based on the signal of the sound sensor 116 for correcting the error of the infrared sensor 114 and the ultrasonic sensor 115.

In addition, the integrated switch 210 or the monitoring system 410 controls the on / off of the gas valve 515 or the on / off of the digital door lock 516, the Internet 610, the telephone 613, and the mobile phone ( 615 is preferably controlled remotely.

In addition, it is preferable that the integrated remote control 310 wirelessly controls each room using a plurality of integrated switches 210 and the monitoring system 410 and Bluetooth or Zigbee communication.

In addition, it is preferable that the integrated switch 210 and the monitoring system 410 or the plurality of integrated switches 210 communicate using wired or wireless Bluetooth or Zigbee communication.

On the other hand, an object of the present invention is another category, the gas detection mode step (S100) of the integrated switch 210 of the home network system to detect the gas leak based on the signal of the gas sensor 117; Lighting device control mode step (S200) of the integrated switch 210 controls the lighting device 511 of each room based on the signal of the CDS sensor 119 and the external CDS sensor 155; Fire detection for detecting the fire or cigarette smoke in each room based on the signal of the integrated switch 210, the temperature sensor 111, the external temperature sensor 151, and the fire detection sensor 112 or the cigarette smoke detection sensor 113 Mode step (S300); And a person detection mode in which the integrated switch 210 detects entry and exit of a person in each room based on signals of the temperature sensor 111, the infrared sensor 114, the ultrasonic sensor 115, and the sound sensor 116. Step (S400); it can be achieved by providing an integrated switch control method of an intelligent home network system.

In addition, the gas detection mode step (S100), the integrated switch 210 receives a signal of the gas sensor 117 (S110); Determining whether the integrated switch 210 is a gas leak based on a signal of the gas sensor 117 (S120); And when the gas leaks in the step S120 of determining whether the gas is leaked, the integrated switch 210 performs a gas alarm. When the gas does not leak, the signal of the gas sensor 117 is input. Receiving step (S110) (S130); it is preferable to perform.

In addition, the lighting device control mode step (S200), the integrated switch 210 receives the signals of the CDS sensor 119 and the external CDS sensor 155 (S210); The integrated switch 210 determines the state of the light switch (S220); And when the lighting switch is turned on in the step S220 of determining the state of the lighting switch, the integrated switch 210 controls the lighting device 511 based on the signals of the CDS sensor 119 and the external CDS sensor 155. If the light switch is off, it is preferable to perform the steps (S210) (S230) of receiving signals from the CDS sensor 119 and the external CDS sensor 155.

And, in the fire detection mode step (S300), the integrated switch 210 inputs the signals of the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, and the cigarette smoke detection sensor 113. Receiving step (S310); The integrated switch 210 determines whether the signal of the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, or the cigarette smoke detection sensor 113 is a predetermined value (S320); And notifying the occurrence of fire and cigarette smoke when the value is a predetermined value in the step S320 of determining whether the value is a preset value, and when the value is not a predetermined value, a person detection mode step S400 or S330. ,

In addition, the person detection mode step (S400),

The integrated switch 210 receives a signal of the temperature sensor 111, the infrared sensor 114, the ultrasonic sensor 115, and the sound sensor 116 (S410); Determining whether the integrated switch 210 is a preset value (S420); And performing a step of transmitting a person detection when the preset value is determined in step S420, and transmitting the current temperature to the monitoring system 410 when the preset value is not set (S430). It is desirable to.

According to the integrated switch control method of the intelligent home network system and intelligent home network system of the present invention as described above, in order to detect the presence of residents in the room, the heating device and the lighting device are controlled by using an infrared sensor, an ultrasonic sensor, and a sound sensor. It can be effective.

In addition, the present invention has the effect of correcting the error of the sensor by using a fire sensor and the temperature sensor.

In addition, the present invention has the effect of providing a fire alarm and notification system according to the fire and smoking by mounting a fire sensor and a cigarette smoke detection sensor.

The following drawings, which are attached to this specification, illustrate one preferred embodiment of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a block diagram of an intelligent home network system according to an embodiment of the present invention;
2 is a view of an integrated switch of an intelligent home network system according to an embodiment of the present invention;
3 is a diagram of an integrated remote control of an intelligent home network system according to an embodiment of the present invention;
4 is a flowchart sequentially illustrating a control method of an integrated switch of an intelligent home network system according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. In addition, one Example described below does not unduly limit the content of this invention described in the Claim, and the whole structure demonstrated by this Embodiment is not necessarily required as a solution of this invention.

<Configuration of Intelligent Home Network System>

1 is a block diagram of an intelligent home network system according to an embodiment of the present invention, Figure 2 is a diagram of an integrated switch of an intelligent home network system according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention It is a diagram of an integrated remote control of an intelligent home network system according to an example. As shown in FIG. 1, the intelligent home network system may be configured as the sensing units 110 and 150, the plurality of integrated switches 210, the integrated remote controller 310, and the monitoring system 410. Hereinafter, a configuration of an intelligent home network system will be described with reference to FIG. 1.

Sensors 110 and 150 according to an embodiment of the present invention may be configured with sensors for detecting an external environmental change, and outputs a signal corresponding to the environmental change. Detecting unit (110, 150) is approximately temperature sensor 111 for detecting a temperature, fire detection sensor 112 for detecting a fire, cigarette smoke detection sensor 113 for detecting cigarette smoke, infrared sensor 114, ultrasonic Sensor 115, sound sensor 116, gas sensor 117, humidity sensor 118, CDS sensor 119, and air pollution measurement sensor 120, and changes in the external environment of the home network system It may be configured as an external temperature sensor 151, an external humidity sensor 153, an external CDS sensor 155, and an external air pollution measurement sensor 157. The detectors 110 and 150 may be installed in each room, living room, front and back of the home network system, and the signals of the detectors 110 and 150 are input to the integrated switch 210 which will be described later. .

The temperature sensor 111 measures the temperature of each room of the home network, and is an integrated switch based on the signals of the temperature sensor 111, the external temperature sensor 151, the humidity sensor 118, and the external humidity sensor 153. The 210 or the monitoring system 410 may adjust or turn on / off the temperature of the heater. The fire sensor 112 detects the fire of the home network, and determines whether the fire is detected along with the signal of the above-described temperature sensor 111 in order to prevent a malfunction of the fire sensor 112. In addition, the cigarette smoke detection sensor 113 to detect the smoke by the smoke alarm and notification. The infrared sensor 114 and the ultrasonic sensor 115 are installed in front of and behind the door of each room of the home network to monitor the entrance and exit of the person, and control the lighting device 511 or the heating device 514 according to the presence of the person. Can be. The sound sensor 116 may also determine the presence of a person to control the lighting device 511 or the heating device 514. In addition, the sound sensor 116 may control the on / off operation of the lighting device 511 by detecting a clap of a person to correct an error of the ultrasonic sensor 115 and the infrared sensor 114.

The CDS sensor 119 measures the illuminance of each room, the external CDS sensor 155 is a sensor for measuring the illuminance of the external environment of the home network, the integrated switch 210 or the monitoring system 410 is a CDS sensor 119 And the lighting device 511 based on the signal of the external CDS sensor 155. The air pollution measurement sensor 120 measures the air pollution of each room, the external air pollution measurement sensor 157 is a sensor for measuring the air pollution of the external environment of the home network. The integrated switch 210 or the monitoring system 410 switches the ventilation of each room from the outside to the inside or the outside to the inside based on the signals of the air pollution measurement sensor 120 and the external air pollution measurement sensor 157 to provide a fan ( 512 or the air conditioner 513 can be controlled.

Integrated switch 210 according to an embodiment of the present invention is approximately display unit 211, room selection switch unit 212, lighting control switch unit 213, heating temperature setting unit 214, communication unit 215, The control unit 216 and the power supply unit 217 are configured. As shown in FIG. 2, the display unit 211 displays time, temperature, humidity, and the like, and may be configured as an LCD panel. The room selection switch unit 212 may select each room to turn on / off the lighting device 511 of each room. The lighting control switch unit 213 functions to control the lighting of the room selected by the above-described room selection switch unit 212. The heating temperature setting unit 214 may set the heating temperature of each room of the home network system. The communication unit 215 functions to transmit / receive signals between the plurality of integrated switches 210 by wire or wirelessly, and also to transmit / receive wirelessly with the monitoring system 410 and the integrated remote controller 310. do. The controller 216 functions to turn on / off the home appliance 510 or control the lighting device 511 and the heating device 514 based on the signals input from the detectors 110 and 150. In addition, the lighting device 511 of each room may be controlled by a control signal of the integrated remote control 310. The power supply unit 217 supplies power to the integrated switch 210. The power supply unit 217 may use household 220 [v] power or a battery.

The integrated remote control 310 according to an embodiment of the present invention, as shown in Figure 3, the room selection switch unit 311 for selecting each room, the lighting control unit for controlling the lighting device 511 of each selected room 313, a curtain control unit 317 for turning on / off a curtain, a window control unit 319 for turning on / off a window, and a display unit 315 including an LCD panel for checking a state of the electronic device 510. Equipped with. The integrated remote control 310 may transmit / receive a signal wirelessly with the plurality of integrated switches 210 and the monitoring system 410.

Monitoring system 410 according to an embodiment of the present invention may be provided with equipment such as a computer or a subcomputer, and controlled remotely by any one of the Internet 610, the telephone 613, and the mobile phone 615. can do. Signal transmission and reception wirelessly with the integrated remote control 310, it is possible to communicate with the integrated switch 210 by wire or wireless. In this case, a wireless communication method such as Bluetooth or Zigbee may be used.

Home appliance 510 according to an embodiment of the present invention is roughly a lighting device 511, a fan 512, an air conditioner 513, a heating device 514, a gas valve 515, a digital door lock 516, etc. It consists of a device. However, other electronic devices or the like that may be provided in a home network system not illustrated in one embodiment of the present invention may be used.

The Internet 610 according to an embodiment of the present invention may be connected to the monitoring system 410 to remotely monitor and control the monitoring system.

Intelligent Home Network System Integrated switch  Control Method>

4 is a flowchart sequentially illustrating an integrated switch control method of an intelligent home network system according to an embodiment of the present invention. As shown in FIG. 4, in the integrated switch control method of the intelligent home network system, the integrated switch 210 of the home network system detects a gas leak based on a signal of the gas sensor 117 (S100). ), The integrated switch 210 controls the lighting device 511 of each room based on the signals of the CDS sensor 119 and the external CDS sensor 155 (S200), the integrated switch 210 Fire detection mode step (S300) for detecting a fire in each room based on the signal of the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, and the cigarette smoke detection sensor 113, and an integrated switch Person detection mode step 210 to detect the presence and absence of people in each room based on the signal of the temperature sensor 111, infrared sensor 114, ultrasonic sensor 115, and sound sensor 116 (S400) ) Each step is performed at the same time when power is supplied to the integrated switch 210. Hereinafter, an integrated switch control method of an intelligent home network system will be described with reference to FIG. 4.

First, in the gas detection mode step 100, the integrated switch 210 performs a step of receiving a signal of the gas sensor 117 (S110).

Next, the integrated switch 210 determines whether or not the gas leak based on the signal of the gas sensor 117 (S120).

Finally, when the gas is leaked in the step S120 of determining whether the gas is leaked, the integrated switch 210 performs a gas alarm, and when the gas is not leaked, a signal of the gas sensor 117 is detected. Receiving the step (S110) (S130) is performed.

On the other hand, the lighting device control mode step (S200), first, the integrated switch 210 performs a step (S210) of receiving the signals of the CDS sensor 119 and the external CDS sensor 155.

Next, the integrated switch 210 performs a step of determining the state of the lighting switch (S220).

Finally, when the lighting switch is turned on in the step S220 of determining the state of the lighting switch, the integrated switch 210 illuminates the lighting device 511 based on the signals of the CDS sensor 119 and the external CDS sensor 155. If the lighting switch is turned off, and receives the signals of the CDS sensor 119 and the external CDS sensor 155 (S210) (S230).

On the other hand, the fire detection mode step (S300), first, the integrated switch 210 is a signal of the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, and the cigarette smoke detection sensor 113. The step S310 of receiving an input is performed.

Next, the integrated switch 210 determines whether the signal of the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, and the cigarette smoke detection sensor 113 is a predetermined value (S320). Perform

Finally, in the step S320 of determining whether it is a preset value, a step of notifying a fire occurrence and a cigarette smoke occurrence is performed in the case of a preset value, and if it is not a preset value, a person detection mode step S400 and S330 are performed. do.

On the other hand, the human detection mode step (S400), first, the integrated switch 210 is a step of receiving a signal from the temperature sensor 111, infrared sensor 114, ultrasonic sensor 115, and the sound sensor 116 ( S410).

Next, a step (S420) of determining whether the integrated switch 210 is a value within a preset range is performed.

Next, in the step S420 of determining whether the value is within the preset range, if the value is within the preset range, a step of transmitting a person detection is performed, and when the value is not within the preset range, the current temperature is transmitted to the monitoring system 410. Step S430 is performed.

As mentioned above, although demonstrated with reference to one Embodiment of this invention, this invention is not limited to this, A various deformation | transformation and an application are possible. That is, those skilled in the art will readily appreciate that many modifications are possible without departing from the spirit of the invention.

110: detector 111: temperature sensor
112: fire detection sensor 113: cigarette smoke detection sensor
114: infrared sensor 115: ultrasonic sensor
116: sound sensor 117: gas sensor
118: humidity sensor 119: CDS sensor
120: air pollution measurement sensor
150: detection unit 151: external temperature sensor
153: external humidity sensor 155: external CDS sensor
157: external air pollution measurement sensor
210: integrated switch 211: display unit
212: room selector switch 213: light control switch
214: heating temperature setting unit 215: communication unit
216 control unit 217 power unit
310: integrated remote control 311: room selector switch
313: lighting control unit 315: display unit
317: curtain control unit 319: window control unit
410: monitoring system 510: home appliances
511: lighting equipment 512: fan
513: air conditioner 514: heating equipment
515 gas valve 516 digital door lock
610: Internet

Claims (12)

Sensing unit (110, 150) for detecting an external environmental change, and outputs a signal corresponding to the environmental change;
A display unit 211 displaying time, temperature, and humidity, a room selection switch unit 212 for selecting at least one room of a home network, and an illumination control switch unit for controlling a lighting device 511 installed in the room ( 213, a communication unit 215 for communicating with an external device, a control unit 216 for receiving a signal from the sensing units 110 and 150 and outputting a corresponding signal to the home appliance 510 installed in the home network, and a power supply A plurality of integrated switches (210) including; a power supply unit (217) for supplying a heating temperature and a heating temperature setting unit (214) for setting a heating temperature of the room;
An integrated remote control 310 for remotely selecting the room to control the lighting device 511 of the room and controlling the operation of the home appliance 510 installed in the home network; And
And a monitoring system 410 which receives and monitors signals of the plurality of integrated switches 210 installed in the home network and outputs a signal corresponding thereto to the home appliance 510 installed in the home network.
The integrated switch 210 or the monitoring system 410,
It controls the on / off of the gas valve 515 or the on / off of the digital door lock 516, and is controlled remotely by any one of the Internet 610, the telephone 613, and the mobile phone 615,
Based on the signals of the CDS sensor 119 for measuring the illuminance of each room and the external CDS sensor 155 for measuring the illuminance of the external environment, or installed in front and behind the door of each room to monitor the entrance and exit of each person Based on the signals of the infrared sensor 114 and the ultrasonic sensor 115 for measuring the number of people remaining in the room, and the sound sensor 116 for correcting the errors of the infrared sensor 114 and the ultrasonic sensor 115. To control the lighting device 511,
Based on the signals of the air pollution measurement sensor 120 for measuring the air pollution level of each room and the external air pollution measurement sensor 157 for measuring the air pollution level of the external environment, the ventilation of the respective rooms from the outside to the inside or the outside Switch to the inside to control the fan 512 or air conditioner 513,
Signals from the infrared sensor 114, the ultrasonic sensor 115, and the sound sensor 116, the temperature sensor 111, and the humidity sensor 118 that detect the presence or absence of a person in each room and the density of the person. , And controls the heating device 514 based on the signal of the external temperature sensor 151 and the external humidity sensor 153,
Intelligent home network system, characterized in that for detecting the fire based on the signal of the temperature sensor 111, fire detection sensor 112, and cigarette smoke detection sensor 113, fire alarm and fire notification.
delete delete delete delete delete The method of claim 1,
The integrated remote control (310) is an intelligent home network system, characterized in that for wireless control of the respective rooms using the plurality of integrated switches (210) and the monitoring system (410) using Bluetooth or ZigBee communication.
The method of claim 1,
Intelligent home network system, characterized in that the communication between the integrated switch 210 and the monitoring system 410 and the plurality of integrated switches using a wired or wireless Bluetooth or ZigBee communication.
Gas detection mode step (S100) of the integrated switch 210 of the home network system to detect the gas leak based on the signal of the gas sensor 117;
A lighting device control mode step (S200), in which the integrated switch 210 controls the lighting device 511 of each room based on the signals of the CDS sensor 119 and the external CDS sensor 155;
The integrated switch 210 detects fire or cigarette smoke in each room based on a signal of a temperature sensor 111, an external temperature sensor 151, and a fire detection sensor 112 or a cigarette smoke detection sensor 113. Fire detection mode step (S300); And
The integrated switch 210 detects the presence and absence of a person in each room based on the signal of the temperature sensor 111, infrared sensor 114, ultrasonic sensor 115, and the sound sensor 116. It includes a detection mode step (S400),
The fire detection mode step (S300),
Receiving, by the integrated switch 210, a signal of the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, and the cigarette smoke detection sensor 113 (S310);
Determining whether the integrated switch 210 has a predetermined value from the temperature sensor 111, the external temperature sensor 151, the fire detection sensor 112, or the cigarette smoke detection sensor 113. (S320); And
In the step S320 of determining whether the preset value is the preset value, reporting the occurrence of a fire and a cigarette smoke; and if the preset value is not the human detection mode step (S400) (S330); , And
The person detection mode step (S400),
The integrated switch 210 receiving a signal from the temperature sensor 111, an infrared sensor 114, an ultrasonic sensor 115, and a sound sensor 116 (S410);
Determining whether the integrated switch 210 is a value within a preset range (S420); And
In the step S420 of determining whether the value is within the preset range, a step of transmitting a person detection is performed when the value is within the preset range, and when the value is not within the preset range, the current temperature is transmitted to the monitoring system 410. Step (S430); integrated switch control method of an intelligent home network system, characterized in that performing.
The method of claim 9,
The gas detection mode step (S100),
The integrated switch 210 receiving a signal of the gas sensor 117 (S110);
Determining whether the integrated switch 210 is a gas leak based on a signal of the gas sensor 117 (S120); And
When the gas leaks in the step S120 of determining whether the gas is leaked, the integrated switch 210 performs a gas alarm, and when the gas does not leak, a signal of the gas sensor 117 is detected. Receiving the step (S110) (S130); Integrated switch control method of an intelligent home network system, characterized in that performing.
The method of claim 9,
The lighting device control mode step (S200),
Receiving the signals of the CDS sensor 119 and the external CDS sensor 155 by the integrated switch 210 (S210);
The integrated switch 210 determines the state of the light switch (S220); And
When the lighting switch is turned on in the step S220 of determining the state of the lighting switch, the integrated switch 210 is connected to the lighting device 511 based on the signals of the CDS sensor 119 and the external CDS sensor 155. ), And when the light switch is off, receiving the signals of the CDS sensor 119 and the external CDS sensor 155 (S210) (S230) Integrated switch control method of home network system.
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