KR101642017B1 - Home automation system and power dualization method thereof - Google Patents

Abstract

The present invention relates to a home automation system and a power duplexing method thereof. The home automation system comprises: an intermediary server connected to a network to perform a communication, wirelessly performing a communication with a plurality of digital devices installed indoors including a camera, and controlling an operation of each of the digital devices; and a power control module inspecting whether commercial power supplied to the intermediary server is blocked or not and generating information on a power blocked state when the commercial power is blocked. The home automation system can inspect whether the commercial power is supplied or not in real time using the power control module and can continuously perform a security function using battery power.

Description

HOME AUTOMATION SYSTEM AND POWER DUALIZATION METHOD THEREOF FIELD OF THE INVENTION [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a home automation system, and more particularly, to a home automation system and a power supply duplication method thereof, in which an auxiliary power is supplied to a home automation system to continuously maintain a driving state.

In recent years, home automation technology for controlling the operation of digital devices provided indoors as well as indoors has been developed.

The home automation function is expanded to control the operation of a plurality of digital devices such as an air conditioner, an air conditioner, a fan, a boiler, and a DVD player, as well as a television or an audio using a remote controller or an external smart phone provided in the room .

For example, the present applicant has filed and filed a plurality of applications related to a home automation system such as the following patent documents 1 and 2.

Patent Document 1 discloses an IR relay server having a server communication unit capable of performing data communication with a smart phone using a wireless communication network such as Wi-Fi and an infrared transmission unit for generating and transmitting an infrared signal capable of controlling a digital device The digital camera receives an image signal from at least one camera capable of capturing an indoor image such as an office or a house, transmits the image to a smartphone, receives a digital device driving signal transmitted from the smart phone, generates an infrared signal suitable for the digital device, A digital appliance control and a home automation system configuration using a smart phone which can realize home automation which can operate a plurality of digital equipments installed indoors outdoors with low cost and simple equipment is described.

In Patent Document 2, when a relay home server installed in each home receives a driving signal of a digital device transmitted in a room or outdoor through a smart phone and transmits the driving signal to an IR repeater equipped with an infrared ray generator, IR repeater generates and transmits an infrared signal so that the user can easily control a digital device in a home not only when the user is indoors but also outdoors and also can transmit infrared signals transmitted from a remote control device such as a remote controller to an IR repeater And then transmitted to the smart phone, the smartphone analyzes the pattern of the infrared signal thus captured, compresses the data contained in the infrared signal, and transmits the infrared signal to the IR repeater again. By storing the infrared signal, the infrared signal unique to the new digital device Signal can be learned easily on smart phone and IR repeater Has a structure of an infrared ray signal digital device control system capable of learning is described using a smartphone.

Korean Patent Publication No. 10-2013-0080278 (published on July 12, 2013) Korean Patent Publication No. 10-1253148 (issued on April 10, 2013)

However, the conventional home automation system including the patent documents 1 and 2 has a limitation in that the home automation system as a whole can not operate normally due to the impossibility of driving the gateway driven by the utility power when the power failure or the forced power supply is cut off .

Accordingly, it is required to develop a power supply redundancy technology capable of continuously driving the home automation system even when power failure or forced power supply is cut off.

SUMMARY OF THE INVENTION An object of the present invention is to provide a home automation system and a power supply duplication method capable of performing a normal operation even when a power failure or a forced power supply is interrupted.

It is another object of the present invention to provide a home automation system and a power supply duplication method thereof, which can inform the user or the security manager of the power cutoff state information in real time when the commercial power is cut off.

In order to achieve the above object, a home automation system according to the present invention is connected to a network to perform communication, and communicates with a plurality of digital devices installed in a room including a camera through a wireless communication method, And a power supply control module for checking whether the commercial power supplied to the relay server is shut off and generating power shutdown status information when the commercial power is shut off.

The power control module includes a power sensing unit for sensing whether the commercial power is supplied, a battery for receiving a commercial power supply and discharging the charged power when the commercial power supply is cut off, A power supply control unit for generating a control signal for controlling the operation of each device provided in the control module, and a control unit for supplying a commercial power source to the relay server according to a control signal of the power source control unit, And a switching unit operable to switch to supply to the device.

The power control module includes a Zigbee communication unit that communicates with each sensing sensor installed in the room, and the power-off state information and sensing information received from each sensing sensor to a smart phone and a security server stored in advance through a mobile communication network And is provided separately from the relay server, including a communication unit for transmitting.

The power control module is provided inside the relay server, and the power control part is communicably connected to the control part of the relay server. When the power off state information is received from the power control part, To the smart phone and the security server of the telephone number stored in advance.

The power control unit compares a voltage value charged in the battery with a preset voltage value to inspect a discharge state of the battery. When the commercial power is supplied before the battery is discharged to the set voltage value, And controls the operation of the switching unit to supply to the relay server.

According to another aspect of the present invention, there is provided a power supply duplication method of a home automation system, comprising: (a) checking whether a commercial power source supplied to a relay server is shut off by using a power sensing unit provided in the power source control module; And (b) supplying power charged in the battery to each device of the power control module when the commercial power is off as a result of the checking in step (a), and (c) And generating blocking status information.

The power control unit may further include a step of driving a Zigbee communication unit provided in the power control module to receive a sensing signal of each sensing sensor installed in the room. In the step (c), the power control unit And controls the smart phone or the security server of the stored phone number to transmit the sensed information corresponding to each sensed signal received in the step (d) and the power cut-off status information through the communication unit provided in the power supply control module do.

In the step (b), the switching unit of the power control module switches to supply the battery power to the relay server. In the step (c), when the power down state information is received from the power control unit, And controlling the driving of the communication module provided in the relay server so as to transmit the data to the smart phone or the security server of the telephone number stored in advance.

(E) receiving, by the relay server, a sensing signal of each sensing sensor installed in the room through the Zigbee communication module, and in the step (c), the controller receives And to transmit the detection information and the power cutoff state information corresponding to each detection signal.

The method includes the steps of: (e) comparing a voltage value charged in the battery with a predetermined set voltage value in the power control unit to check a discharge status; (f) if the battery is discharged to the set voltage value, (G) controlling the operation of the switching unit to supply commercial power to the relay server from the power control unit when the commercial power is supplied before the battery is discharged to the set voltage value, .

As described above, according to the power supply duplication method of the home automation system according to the present invention, it is possible to check whether the commercial power supply is supplied in real time using the power supply control module, The effect of being able to be transmitted and guided to the security server is obtained.

According to the present invention, it is possible to receive information sensed by each sensing sensor through ZigBee communication capable of low-power operation even when the commercial power is shut off, and transmit the received sensing information to the smart phone and the security server, Can be continuously performed.

In addition, according to the present invention, it is possible to provide a power control module in the relay server to check whether the commercial power is supplied in real time, and to continuously drive the relay server by using the power charged in the battery when the commercial power is cut off Effect is obtained.

1 is a block diagram of a home automation system according to a preferred embodiment of the present invention;
FIG. 2 is a flowchart illustrating a power supply duplication method of a home automation system according to a preferred embodiment of the present invention,
3 is a block diagram of a home automation system according to another embodiment of the present invention.

Hereinafter, a home automation system and a power supply duplication method according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a home automation system according to a preferred embodiment of the present invention.

The present invention relates to a home automation system for controlling the driving of a plurality of digital devices such as a camera, a television, an audio device, a lighting device, and an air conditioner in a room such as a home or an office. Even if the commercial power supplied to the relay server is shut off, the control of each sensor and the digital device is continuously controlled, and the power shutdown status information is transmitted to the predetermined smart phone or security server.

1, a home automation system 10 according to a preferred embodiment of the present invention includes a sensing unit 20 for sensing room state information, a camera 30 for photographing an indoor image, A relay server 40 that communicates with a network and communicates with a plurality of digital devices 31 installed in the room including the camera 30 in a wireless communication manner and controls the operation of each digital device 31 And a smart phone 50 for wirelessly communicating with the relay server 40 and transmitting a control signal for controlling each digital device 31 including the camera 30.

In addition, the home automation system 10 according to the preferred embodiment of the present invention checks whether the commercial power supplied to the relay server 40 is blocked or not, and when a commercial power is cut off, And a power control module 70 for transmitting power cutoff status information to the phone 50 or the security server 60. [

The relay server 40 may communicate with the smartphone 50 through a router 41 directly connected to network equipment (not shown) provided in a building or an indoor space, or connected to the network equipment.

It is needless to say that the present invention is not necessarily limited thereto and that the relay server 40 and the network equipment are communicably connected to each other using a communication cable and the router 41 is connected to the relay server 40, It may be modified to perform the function of the router 41 in the relay server 40 or the camera 30 by applying it to the camera 40 or the camera 30. [

The sensing unit 20 includes at least one motion sensing sensor 21 installed in the room for sensing a movement of a user, a temperature and humidity sensor 22 for sensing temperature and humidity for cooling and heating the room, A smoke detection sensor 23 for detecting the opening / closing of the door, and a door detection sensor 24 for detecting whether the door is open or closed.

Each of the sensing sensors 21 to 24 provided in the sensing unit 20 is driven by a power supplied from a battery (not shown) built therein, so that the sensing operation is always performed regardless of whether or not the commercial power is cut off. Can be performed.

The relay server 40 transmits the image data photographed by the camera 30 and the detection signals of the respective sensors 21 to 24 to the smartphone 50, And a control unit 42 for generating a control signal for controlling the operation of each digital device 31 and each digital device 31.

In addition, the relay server 40 includes a storage unit 43 for storing image data photographed by the camera 30, sensed data sensed by the sensing unit 20, and a driving program for driving the relay server 40, And a communication unit 44 for communicating with each of the sensors 21 to 24 and each digital device 31 provided in the sensing unit 20. [

The communication unit 44 includes a communication module 45 for communicating with the router 41 in a wireless or wired communication manner, an infrared communication module 46 for communicating with the digital device 31 using an infrared signal, And a Zigbee communication module 47 that communicates with each of the sensors 21 to 24 provided in the sensing unit 20.

The communication module 45 communicates with the indoor camera 30 and the smart phone 50 as well as the Internet through a wireless communication method such as Wi-Fi or a wired communication method using a LAN line through the router 41. [ It is possible to perform communication with the smartphone 50 outdoors.

The infrared communication module 46 generates a custom code included in the drive signal of the digital device 31 received from the smart phone 50 and an infrared signal corresponding to the control command, And receives an infrared signal transmitted from a remote controller (not shown) in which an infrared format for controlling the digital device 31 is matched and stores the infrared signal in a new infrared ray To the storage unit 43 so as to be stored as a signal.

The smartphone 50 may be provided with a driving application 51 for driving the home automation system 10.

The main control unit 52 of the smart phone 50 registers the new digital device 31 by executing the driving application 51 and displays the image data photographed by the camera 30 and the detected The operation of the display unit 53 can be controlled so as to receive the data and display it on the screen.

When the user's operation command is input, the main control unit 52 controls the operation of each digital device 31 including the camera 30 based on the operation command, and sets or releases the security function of the home automation system A control signal can be generated and transmitted.

The operation of the home automation system 10 is controlled by using the smartphone 50 in the present embodiment. However, the present invention is not limited thereto, and the present invention is not limited to the smart phone 50, And may be changed to apply various types of personal portable terminals having a communication function such as Wi-Fi or the like, connected to a mobile communication network.

The security server 60 may be provided as a server of a security company responsible for securing a building or a home, or a server of a police station or a security center.

The power control module 70 includes a power sensing unit 71 for sensing whether a commercial power source is supplied, a battery 72 for receiving a commercial power source and discharging the charged power when the commercial power source is cut off, The power supply control section 73 generates a control signal for controlling the operation of each device provided in the power supply control module 70 based on the detection result of the power supply control section 72 and the power supply control section 73, And a switching unit 74 for supplying power to the power supply control unit 73 or power supply for discharging the battery 72 to the power supply control unit 73

The power control module 70 is connected to the smart phone 50 of the telephone number stored in advance through the mobile communication network in accordance with the control signal of the power control unit 73, And a Zigbee communication unit 76 for performing communication with the sensing sensors 21 to 24 installed in the room via Zigbee communication.

The power control unit 73 receives the detection signals from the respective sensors 21 to 24 while the commercial power is turned off through the Zigbee communication unit 76 and transmits the received detection information to the smart phone 50 and the security server 60 in order to control the communication unit 75.

As described above, according to the present invention, it is possible to check whether the commercial power is supplied in real time using the power control module, and transmit the power cutoff status information to the smartphone or the security server according to the inspection result.

In addition, the present invention receives information sensed by each sensing sensor through ZigBee communication capable of low-power operation even when commercial power is shut off, and transmits the received sensing information to a smart phone and a security server, It can be done continuously.

Next, a power supply duplication method of a home automation system according to a preferred embodiment of the present invention will be described in detail with reference to FIG.

FIG. 2 is a flowchart illustrating a power supply duplication method of a home automation system according to a preferred embodiment of the present invention.

In this embodiment, the case where the user controls the operation of the home automation system outdoors will be described.

The main control unit 52 of the smart phone 50 controls the display unit 53 to display the initial screen by executing the driving application 51 stored in the memory and transmits the home automation system 10 in order to be able to communicate with the relay server 40.

Then, the main control unit 51 receives the operation command for controlling the operation of each digital device 31 including the camera 30 installed in the room by selecting the menu displayed on the initial screen, And transmits it.

The control unit 42 of the relay server 40 controls the camera 42 in accordance with the control signal received from the smart phone 50 by using the communication module 45 and the infrared communication module 46 provided in the communication unit 44. [ 30 of the respective digital devices 31. [0050]

The control unit 42 receives the sensing signals from the sensing sensors 21 to 24 installed in the room through the Zigbee communication module 47 and transmits the sensing information and the image information photographed by the camera 30 to the smart phone 50).

Meanwhile, the power sensing unit 71 provided in the power control module 70 detects whether the commercial power is normally supplied to the relay server 40 (S10).

At this time, the power source control unit 73 controls the driving of the switching unit 74 so as to charge the commercial power source to the battery 72.

In step S12, the power control unit 73 checks whether the commercial power is shut off using the sensing signal output from the power sensing unit 71. [

If it is determined in step S12 that the commercial power is normally supplied, the power control unit 73 proceeds to step S10 to continuously control the power sensing unit 71 to sense the commercial power.

On the other hand, if it is determined in step S12 that the commercial power is off, the power control unit 73 controls the switching unit 74 to supply power to the devices of the power control module 70 by discharging the power charged in the battery 72 And the power control module 70 is continuously driven by receiving battery power (S14).

At this time, the Zigbee communication unit 76 receives the sensing signals of the sensing sensors 21 to 24 provided in the room, and transmits the received sensing signals to the power control unit 73.

Accordingly, the power control unit 73 controls the operation of the communication unit 75 to transmit the power-off state information to the smartphone 50 and the security server 60, which are stored in advance, at step S16.

The power control unit 73 controls the operation of the communication unit 75 to transmit the sensing information according to the sensing signals received from the sensing sensors 21 to 24 to the smartphone 50 and the security server 60.

In step S20, the power control unit 73 compares the voltage value charged in the battery 72 with a predetermined set voltage value to check the discharge state of the battery 72. When the battery 72 is discharged by the set voltage value The process of steps S10 to S20 is repeatedly performed.

Accordingly, when the commercial power is supplied after the occurrence of the power failure, or when the commercial power is supplied by the operation of the user or the breaker of the security manager, the power control module 70 supplies the commercial power to the relay server 40, ).

The relay server 40 controls the operations of the camera 30 and the digital device 31 according to the control signal of the smartphone 50 and detects Information to the smartphone 50.

On the other hand, if the battery 72 is discharged to the set voltage value in step S20, the power control unit 73 may control the power control module 70 to stop driving.

As described above, the present invention can promptly notify the user and the security manager of the power shutdown state information when power failure or forced shutdown of the power source occurs.

Accordingly, the user or the security manager can check the forced shutdown state of the power supply in real time in addition to the power failure, and can respond quickly.

Meanwhile, in the present embodiment, the power control module 70 is described separately from the relay server 40, but the present invention is not limited thereto.

For example, FIG. 3 is a block diagram of a home automation system according to another embodiment of the present invention.

3, the home automation system 10 according to another embodiment of the present invention is similar to that of the above embodiment, except that the power supply control module 70 is provided inside the relay server 40 can be changed.

Here, the power supply control module 70 removes the communication unit 75 and the Zigbee communication unit 76, and includes the power sensing unit 71, the battery 72, the power control unit 73, and the switching unit 74 can do.

The power control unit 73 is connected to the control unit 42 of the relay server 40 so as to communicate with the control unit 42. When the commercial power is cut off, The control unit 42 controls the drive of the power source 74 and transmits the power-off state information to the control unit 42. [

Then, the control unit 42 stops the infrared communication in which the power consumption is relatively higher than that in the Zigbee communication, stops only the Zigbee communication module 47 in the state where the infrared communication module 46 is stopped to perform only the Zigbee communication Can be controlled to be driven.

The control unit 42 may control the operation of the communication module 45 to transmit the power off state information to the smart phone 50 and the security server 60 of the telephone number stored in advance.

The control unit 42 receives the sensing signals of the sensing sensors 21 through 24 via the Zigbee communication module 47 and controls the communication unit 40 to transmit the sensing information to the smart phone 50 and the security server 60 The driving of the module 45 can be controlled.

The home automation system according to another embodiment of the present invention configured as described above can check whether a commercial power source is supplied in real time using a power source control module provided inside a relay server, and when the commercial power source is shut off, So that the relay server can be continuously operated.

Although the invention made by the present inventors has been described concretely with reference to the above embodiments, the present invention is not limited to the above embodiments, and it goes without saying that various changes can be made without departing from the gist of the present invention.

Although the present invention has been described in connection with the case where the user controls the operation of the home automation system outdoors, the present invention is not limited thereto. May be changed to quickly guide the information.

The present invention is applied to a home automation system technology capable of promptly informing a user and a security manager by transmitting power cutoff state information when a power failure or a forced cutoff of a power supply occurs, and continuously checking an indoor security state using battery power.

10: Router 20:
21: Motion detection sensor 22: Temperature and humidity detection sensor
23: Smoke detection sensor 24: Door detection sensor
30: camera 31: digital device
40: Relay server 41: Router
42: control unit 43:
44: communication unit 45: communication module
46: Infrared communication module 47: Zigbee communication module
50: smartphone 51: driving application
52: main control unit 53: display unit
60: security server 70: power control module
71: power detection unit 72: battery
73: Power supply control unit 74:
75: Communication unit 76: Zigbee communication unit

Claims (10)

A sensing unit for sensing the indoor state information,
A relay server for performing communication with a plurality of digital devices installed in the room including a camera by performing a wireless communication method and controlling the operation of each digital device,
And a power control module for checking whether the commercial power supplied to the relay server is blocked, generating power cutoff status information when the commercial power is cut off, and transmitting the generated power cutoff status information to a smart phone or a security server of a telephone number stored in advance,
The power control module includes a power sensing unit for sensing whether a commercial power source is supplied,
A power control unit for generating a control signal for controlling the operation of each device provided in the power control module based on the detection result of the power sensing unit,
A switching unit for supplying commercial power to the relay server in accordance with the control signal of the power control unit or supplying power to be discharged from the battery to each device provided in the power control module,
A Zigbee communication unit for communicating with each sensor installed in the room,
And a communication unit for transmitting the power cutoff state information and the detection information received from each of the detection sensors to a smart phone and a security server of a telephone number stored in advance via a mobile communication network,
A relay server, provided separately from the relay server,
And controls driving of the communication unit to continuously transmit the sensing information and the power cutoff state information received by the sensing unit,
The power control unit compares a voltage value charged in the battery with a preset voltage value to inspect a discharge state of the battery. When the commercial power is supplied before the battery is discharged to the set voltage value, And controls the operation of the switching unit to supply to the relay server. delete delete A sensing unit for sensing the indoor state information,
A relay server for performing communication with a plurality of digital devices installed in the room including a camera by performing a wireless communication method and controlling the operation of each digital device,
And a power control module for checking whether the commercial power supplied to the relay server is blocked, generating power cutoff status information when the commercial power is cut off, and transmitting the generated power cutoff status information to a smart phone or a security server of a telephone number stored in advance,
The power control module includes a power sensing unit for sensing whether a commercial power source is supplied,
A power control unit for generating a control signal for controlling the operation of each device provided in the power control module based on the detection result of the power sensing unit;
And a switching unit operable to supply a commercial power to the relay server according to a control signal of the power control unit or to supply power to be discharged from the battery to each device provided in the power control module,
And controls the driving of the communication unit to continuously transmit the sensing information and the power cutoff status information received by the sensing unit,
Wherein the power control module is provided inside the relay server,
The power control unit is connected to the control unit of the relay server so as to be able to communicate with the control unit. The battery control unit compares a voltage value charged in the battery with a preset voltage value to inspect the discharge status of the battery, The control unit controls the operation of the switching unit to supply commercial power to the relay server when the commercial power is supplied,
Wherein the control unit controls the power control unit to transmit the power off state information to the smart phone and the security server stored in advance through the communication module provided in the relay server when the power off state information is received from the power control unit. delete A power supply duplication method of a home automation system according to claim 1,
(a) checking whether the commercial power supplied to the relay server is shut off by using the power sensing unit provided in the power control module,
(b) if it is determined in step (a) that the commercial power is off, supplying power charged in the battery to each device of the power control module,
(c) receiving the detected room condition information from each of the sensing sensors installed in the room in the power control module,
(d) generating power cut-off status information in the power control module of the power control module and detecting the power cut-off status information and the detection information corresponding to the respective detection signals received from the respective sensors using the communication unit of the power control module Continuously transmitting to a smart phone or security server of a pre-stored phone number,
(e) comparing the voltage value charged in the battery with the predetermined set voltage value in the power source control unit to inspect the discharge state,
(f) stopping the operation of the power control module when the battery is discharged to the set voltage value, and
(g) controlling the operation of the switching unit to supply commercial power to the relay server from the power control unit when the commercial power is supplied before the battery is discharged to the set voltage value,
Wherein the power control unit drives the Zigbee communication unit provided in the power control module to receive the sensing signals of the respective sensing sensors installed in the room. delete A power supply duplication method of a home automation system according to claim 4,
(a) checking whether the commercial power supplied to the relay server is shut off by using the power detection unit of the power control module provided in the relay server,
(b) supplying power to the relay server when the commercial power is off as a result of the checking in step (a), and driving each device of the power control module and the relay server,
(c) receiving the detected indoor condition information from each of the sensors installed in the room in the relay server,
(d) generating power cut-off status information at the power control unit of the power control module, and detecting the power cut-off status information and the detection information corresponding to each detection signal received from each sensor at the relay server, Continuously transmitting to the phone or security server,
(e) comparing the voltage value charged in the battery with the predetermined set voltage value in the power source control unit to inspect the discharge state,
(f) stopping the operation of the power control module when the battery is discharged to the set voltage value, and
(g) controlling the operation of the switching unit to supply commercial power to the relay server from the power control unit when the commercial power is supplied before the battery is discharged to the set voltage value,
In the step (c), the relay server receives a detection signal of each sensor installed in the room through the Zigbee communication module,
In the step (d), when the power off state information is received from the power control unit, the control unit of the relay server controls driving of the communication module provided in the relay server to transmit the power off state information to the smart phone or security server A power supply duplication method of a home automation system. delete delete

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