KR100739205B1 - Apparatus and method of catastrophe management in home automation system - Google Patents

Abstract

A disaster management device of a home automation system is provided to prevent a secondary disaster by making the home automation system detect and actively cope with a disaster causing the secondary disaster. A home automation system is composed of an earthquake detecting system(600) sensing vibration or inclination due to earthquake and providing a detection signal; a control server(100) generating and transmitting a valve control signal if the detection signal is sent from the earthquake detecting system; and a gas valve control unit(500) cutting off a gas valve in receiving the valve control signal from the control server. The earthquake detecting system comprises an earthquake detecting sensor sensing vibration or inclination due to earthquake and supplying an analog detection signal, wherein the earthquake detecting sensor is one of an acceleration sensor, an inclination sensor, and a vibration sensor; a converter unit converting the analog detection signal into a digital detection signal; a contact point control unit transmitting the detection signal to the control server or a lobby phone in a contact point method; a communication unit transmitting the detection signal to the lobby phone in an RS(Recommended Standard)-485 method; an ethernet control unit transmitting the detection signal to a local server or the control server through a TCP/IP(Transmission Control Protocol/Internet Protocol); and a CPU(Central Processing Unit) checking a pre-set communication method, transmitting a relay signal to the contact point control unit according to the detection signal, the detection signal to the communication unit, or data corresponding to the detection signal to the ethernet control unit.

Description

[0002] In recent years, there has been a growing interest in home automation systems,

1 is a network connection diagram for describing a home automation system according to a first preferred embodiment of the present invention.

2 is a block diagram for explaining a home automation system according to a second embodiment of the present invention;

3 is a block diagram for explaining an earthquake detection system according to a preferred embodiment of the present invention.

4 is a flow chart for explaining a disaster countermeasure method of a home automation system according to a preferred embodiment of the present invention.

Description of the Related Art

100: control server 200:

300: Local server 400: Lobby phone

500: Gas valve control unit 600: Earthquake detection system

610: earthquake detection sensor 620: A / D converter section

630: CPU 640:

650: contact point control unit 660: RS-485 communication unit

670: buffer unit 680: Ethernet control unit

690: Network interface unit

The present invention relates to a disaster coping apparatus of a home automation system.

Today, the home automation (HA) system refers to a technology that enables users to control the various electric / electronic devices in the home automatically by utilizing the electronic technology, thereby improving the convenience of the user's daily life.

In general, the convenience provided by the home automation system includes a video door phone that allows visitors to talk while watching a video screen, an unauthorized and malicious intruder detecting an outside person, , And a security function for shooting and recording external intruders by installing a surveillance camera.

In addition, the convenience provided by the home automation system includes gas leakage detection, gas valve automatic locking function to prevent gas leakage accident, fire detection and automatic fire prevention function to prevent fire occurrence in advance.

In addition, it provides various functions such as automatic illuminance adjustment of indoor illumination device and remote meter reading function of various meters, thereby providing convenience to subscribers.

With the use of such a home automation system, a subscriber can control various devices installed in the home even after he or she comes to work, and also has an effect of preventing accidents such as gas leakage, fire, and illegal invasion.

In such a general home automation system, a method of coping with a disaster largely takes the form of detecting a home environment (temperature sensing, gas detection, etc.) and locking a gas valve accordingly or locking a gas valve in a remote place at a remote location.

However, in the home automation system, there is no preparation against the second disaster that occurs after a disaster such as an earthquake.

For example, if a fire occurs at home, the home automation system can automatically lock the gas valve and drive the fire extinguisher to quench the fire, but in the event of a second disaster that can occur in the event of an earthquake There is no preparation for it.

In other words, if a major earthquake occurs that has a great impact on nature and human society due to strong earthquake motions and remarkable crustal movements, the destruction of the structure due to earthquakes will lead to deaths and injuries of residents. There is no preparation for the second disaster caused by great damage to the cables and piping.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a device for coping with a disaster of a home automation system capable of coping with a secondary disaster caused when a disaster such as an earthquake occurs in a home automation system It has its purpose.

According to an aspect of the present invention, there is provided a home automation system including: an earthquake detection system for detecting a vibration or tilt due to an earthquake to provide a detection signal; And a gas valve control unit for switching the gas valve to a shutoff state when a valve control signal is received from the control server.

The home automation system according to the present invention includes a lobby phone for receiving a sensing signal from a seismic sensing system or a RS-485 system and transmitting the sensed signal to a control server, And a switching unit for switching a detection signal received from the lobby phone or the local server to a control server which is a destination.

The lobby phone according to the present invention converts a sensing signal received by the RS-485 method into a TCP / IP method and transmits the converted signal to the control server.

An earthquake detection system according to the present invention includes an earthquake detection sensor which is implemented by at least one of an acceleration sensor, a tilt sensor, and a vibration sensor and detects an oscillation or tilt due to an earthquake to provide an analog detection signal, A communication unit for transmitting the sensing signal to the control server or the lobby phone in a contact manner, and a communication unit for transmitting the sensing signal in the RS-485 manner to the lobby phone, An Ethernet control unit for transmitting a detection signal to a local server or a control server in a TCP / IP manner; a relay communication unit for transmitting a relay signal to the contact control unit according to a detection signal, And a CPU for transmitting data corresponding to the signal to the Ethernet controller.

According to another aspect of the present invention, there is provided an earthquake detection system for a home automation system, which is implemented by at least one of an acceleration sensor, a tilt sensor, and a vibration sensor, A contact unit for transmitting the sensing signal to the control server of the home automation system in a contact manner, and a control unit for controlling the sensing signal in the RS-485 manner An Ethernet control unit for transmitting a detection signal to the control server in a TCP / IP manner; a relay communication unit for transmitting a relay signal to the contact control unit according to a detection signal, Or a CPU that transmits data corresponding to the detection signal to the Ethernet controller The.

According to another aspect of the present invention, there is provided a method of handling a disaster of a home automation system having an earthquake detection system, the method comprising: providing a detection signal to a home automation system when a vibration or tilt due to an earthquake is detected; Generating a valve control signal when a control server of the automation system receives a detection signal; and switching a gas valve to a shutoff state according to a valve control signal of the gas valve control unit of the home automation system.

The step of providing a sensing signal according to the present invention includes the steps of: confirming a predetermined communication method by the earthquake detection system; if the communication method is a contact method, driving the relay to transmit a sensing signal in a contact manner; Transmitting the sensing signal through the RS-485 system through a plurality of signal lines; and if the communication system is the TCP / IP system, converting the sensing signal into the TCP / IP system packet and transmitting .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a method and apparatus for handling a disaster of a home automation system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a network connection diagram for explaining a home automation system according to a first preferred embodiment of the present invention.

1, the home automation system according to the first embodiment of the present invention includes a control server 100, a gas valve control unit 500, a switching unit, a local server 300, a lobby phone 400, System 600 shown in FIG.

The earthquake detection system 600 incorporates an acceleration sensor, a tilt sensor, or a vibration sensor, and provides a detection signal when a vibration or tilt due to an earthquake is detected.

The earthquake detection system 600 may transmit a sensing signal to a component of a home automation system such as the lobby phone 400 using a contact method or an RS-458 method, or may transmit a home automation system such as the local server 300, Lt; / RTI >

That is, the earthquake detection system 600 provides a sensing signal in a contact mode, an RS-485 mode, or a TCP / IP mode according to a user's setting or connection state.

When the sensing signal is received in the contact mode or the RS-485 mode, the lobby phone 400 converts the sensing signal into the TCP / IP mode and then transmits the sensing signal to the control server 100 through the switching unit 200. That is, the lobby phone 400 converts the received sensing signal into a sensing signal of the TCP / IP packet type and sets the destination to the control server 100 and transmits the sensing signal.

The local server 300 transmits a detection signal received in the TCP / IP manner to the control server 100. At this time, the earthquake detection system 600 may transmit the detection signal directly to the control server 100 through the switching unit 200. [

The switching unit 200 can interwork with an external Ethernet network and transmits a TCP / IP packet received from a component of the home automation system such as the local server 300 and the lobby phone 400 to a destination.

The control server 100 corresponds to a main server that controls the overall operation of the home automation system. When the detection signal is received from the seismic sensing system 600, the control server 100 transmits a valve control signal to the gas valve control unit 500.

And. The gas valve control unit 500 may include a gas valve shutoff unit (not shown), a gas sensing unit (not shown), a temperature sensing unit (not shown), and a valve control unit (not shown) ), The gas valve is switched to the shut-off state.

That is, when the valve control signal is received from the control server 100 while controlling the gas valve blocking unit according to the detection signal received from the gas sensing unit or the temperature sensing unit, the valve control unit controls the gas valve blocking unit to shut off the gas valve Switch.

2 is a block diagram illustrating a home automation system according to a second embodiment of the present invention.

As shown in FIG. 2, an earthquake detection system 600 'can be embodied in the control server 100.

As shown in FIG. 1, the earthquake detection system 600 'may be implemented as a separate device and may be connected to components of the home automation system to provide a sensing signal. As shown in FIG. 2, And can be embedded in the control server 100.

The earthquake detection system 600 'in the control server 100 may transmit a detection signal to the control server 100 in a contact manner.

3 is a block diagram for explaining an earthquake detection system according to a preferred embodiment of the present invention.

3, an earthquake detection system 600 according to the present invention includes an earthquake detection sensor 610, an A / D converter unit 620, a central processing unit (CPU) 630, a watchdog 630, An interface control unit 640, a contact control unit 650, an RS-485 communication unit, a plurality of buffer units 670, an Ethernet control unit 680, and a network interface unit 690.

The earthquake detection system 600 includes a power unit that receives a driving power from an adapter that converts a voltage of 200V used as a driving power to 12V as a driving power source. The power unit receives 12V driving power and converts the input power to 5V, (600).

The earthquake sensor 610 may be implemented as an acceleration sensor, a tilt sensor, a vibration sensor, or the like, and may sense an oscillation or a tilt to provide an analog sensing signal.

The A / D converter unit 620 converts the analog sensing signal into a digital sensing signal.

The monitoring instrument unit 640 monitors a state in which the CPU 630 enters an interruption state with a mechanical failure or an unlimited repetitive state due to a program error.

Upon receiving the detection signal, the CPU 630 transmits the detection signal to the control server 100 according to the set communication method.

First, when the earthquake detection system 600 transmits a detection signal to the control server 100 or the lobby phone 400 by the contact point method, the CPU 630 transmits a detection signal to the contact point controller 650.

The contact control unit 650 drives the relay to transmit a sensing signal to the control server 100 or the lobby phone 400. When the sensing signal is transmitted in a contact mode, the CPU 630 outputs a 'HIGH' When the 'HIGH' signal is applied, the contact controller 650 drives the relay to inform the control server 100 or the lobby phone 400 that an earthquake has occurred.

When the earthquake detection system 600 transmits a detection signal to the lobby phone 400 using the RS-486 system, the CPU 630 transmits the detection signal to the RS-485 communication unit 660.

When receiving the sensing signal, the RS-485 communication unit 660 transmits the sensing signal to the lobby phone 400 through a plurality of signal lines in a serial communication manner.

When the earthquake detection system 600 transmits a detection signal to the control server 100 through the local server 300 in a TCP / IP manner, the CPU 630 transmits data corresponding to the detection signal to the buffer unit 670 ).

The buffer unit 670 outputs data corresponding to the detection signal in a first-in first-out (FIFO) manner. The Ethernet control unit 680 processes the received data into packets according to the TCP / IP scheme, To the local server 300 or the control server 100 through the network interface unit 690.

Meanwhile, the control server 100 controls the valve (not shown) to switch the gas valve to the shutoff state when the sensing signal is received from the built-in seismic sensing system 600 or the sensing signal is received from the external seismic sensing system 600, And transmits the control signal to the gas valve control unit. When the valve control signal is received, the gas valve control unit 500 switches the gas valve to the shutoff state to prevent secondary disasters caused by the earthquake.

FIG. 4 is a flow chart for explaining a disaster countermeasure method of a home automation system according to a preferred embodiment of the present invention.

Referring to FIG. 4, when a vibration or tilt due to an earthquake is detected, an earthquake detection system 600 or an external earthquake detection system 600 built in the control server 100 of the home automation system generates a detection signal (S100).

Then, the seismic detection system 600 confirms the communication method of transmitting the detection signal to the control server 100 (S110).

If the earthquake detection system 600 is of the contact type, the relay is driven to transmit the detection signal to the control server 100 (S 120).

That is, when the communication system is the contact system, the earthquake detection system 600 transmits the detection signal to the contact controller 650.

The contact control unit 650 drives the relay to transmit the sensing signal to the control server 100 or the lobby phone 400. When the sensing signal is transmitted in the contact mode, the CPU 630 outputs a 'HIGH' signal To the contact point control unit 650. When the 'HIGH' signal is applied, the contact point control unit 650 drives the relay to inform the control server 100 or the lobby phone 400 that an earthquake has occurred.

When the communication system is the RS-485 system, the earthquake detection system 600 transmits the detection signal to the lobby phone 400 according to the RS-485 system, and the lobby phone 400 transmits the detection signal to the TCP / IP scheme and transmits a detection signal to the control server 100 (S 130).

That is, when the communication system is the RS-495 system, the earthquake detection system 600 transmits the detection signal to the RS-485 communication unit 660.

When receiving the sensing signal, the RS-485 communication unit 660 transmits the sensing signal to the lobby phone 400 through a plurality of signal lines in a serial communication manner.

If the communication method is the TCP / IP method, the earthquake detection system 600 converts the detection signal into a TCP / IP method packet and transmits the TCP / IP method packet to the control server 100 (S 140).

That is, when the communication system is the TCP / IP system, the earthquake detection system 600 temporarily stores data corresponding to the detection signal in the buffer unit 670.

The buffer unit 670 outputs data corresponding to the detection signal in a first-in first-out (FIFO) manner. The Ethernet control unit 680 processes the received data into packets according to the TCP / IP scheme, To the local server 300 or the control server 100 through the network interface unit 690.

When the control server 100 receives a sensing signal from the built-in earthquake sensing system 600 or a sensing signal from the external earthquake sensing system 600, the control server 100 transmits a valve control signal And transmits it to the gas valve control unit 500 (S 150).

When the valve control signal is received, the gas valve control unit 500 switches the gas valve to the shutoff state to prevent the secondary disaster caused by the earthquake (S 160).

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

As described above, according to the present invention, the home automation system itself can prevent a secondary disaster by actively coping with a disaster that causes a secondary disaster such as an earthquake.

Claims (7)

In a home automation system, An earthquake detection system that detects a vibration or tilt due to an earthquake and provides a detection signal, A control server for generating and transmitting a valve control signal when the sensing signal is provided from the seismic sensing system; And a gas valve control unit for switching the gas valve to a shutoff state when the valve control signal is received from the control server, The earthquake detection system comprises: An earthquake detection sensor which is implemented by at least one of an acceleration sensor, a tilt sensor, and a vibration sensor, detects an oscillation or tilt due to the earthquake and provides an analog sense signal, A converter for converting the analog sensing signal into a digital sensing signal, A contact controller for transmitting the sensing signal to the control server or the lobby phone in a contact- A communication unit for transmitting the sensing signal through the RS-485 system to the lobby phone, An Ethernet controller for transmitting the detection signal to the local server or the control server in a TCP / IP manner, A CPU for confirming a predetermined communication method and transmitting a relay signal to the contact point control unit according to the sensing signal or transmitting the sensing signal to the communication unit or transmitting data corresponding to the sensing signal to the Ethernet control unit Home automation system. The home automation system according to claim 1, A lobby phone for receiving the detection signal from the earthquake detection system by a contact method or an RS-485 method and transmitting the detection signal to the control server, A local server receiving the detection signal from the seismic detection system in a TCP / IP manner and transmitting the detection signal to the control server, And a switching unit for switching the detection signal received from the lobby phone or the local server to the control server to be the destination. The mobile communication terminal of claim 2, The home automation system converts the sensing signal received by the RS-485 system into a TCP / IP system and transmits the converted signal to the control server. delete In an earthquake detection system of a home automation system, An earthquake detection sensor which is implemented by at least one of an acceleration sensor, a tilt sensor, and a vibration sensor, detects an oscillation or tilt due to an earthquake and provides an analog sense signal, A converter for converting the analog sensing signal into a digital sensing signal, A contact control unit for transmitting the sensing signal to a control server of the home automation system in a contact manner; A communication unit for transmitting the sensing signal to the control server through an RS-485 scheme; An Ethernet controller for transmitting the detection signal to the control server in a TCP / IP manner, A CPU for confirming a predetermined communication method and transmitting a relay signal to the contact point control unit according to the sensing signal or transmitting the sensing signal to the communication unit or transmitting data corresponding to the sensing signal to the Ethernet control unit Earthquake detection system of home automation system. delete delete

Images