KR101818707B1 - Standby current cut-off system for the EMS - Google Patents

Abstract

The present invention relates to a standby current control system for EMS.
A control server for controlling the power supply of the electronic equipment, a controller for directing a control command to the electronic equipment by the manager, and a control server for controlling the electronic equipment remotely, A gateway including a protocol conversion unit for converting a protocol of a control signal received from the control server, and a power supply connected to an outlet formed in the building to control power supplied to the electronic equipment and communicating with a control signal transmitted from the control server A power control unit including a second communication control unit, a power cutoff unit for controlling a power supplied to the electronic device and cutting off the power supplied to the electronic device, and a power connection unit for connecting the power supplied to the electronic device, A microprocessor for controlling the whole of the electronic device, And a power controller including a sensor unit including an operation sensor for sensing an operation state of the power controller and a display unit for displaying a driving state of the power controller as an external unit.

Description

(Standby current cut-off system for the EMS) for an EMS (Energy Management System)

The present invention relates to a standby current control system for EMS. More particularly, the present invention provides a power controller in each socket to control a power controller remotely from a control server, and a separate file storage command is issued to a device that needs to save a file before current interruption, And more particularly to a standby current control system for an EMS in which preservation is performed.

Generally, it is very difficult in the busy modern society to pull out all the plugs that are unnecessary from the outlet every time you go out at home. There is also a need to turn off the power switch in a factory or a public building uniformly in order to prevent electricity saving or fire in a certain time. This may be the case, for example, when leaving the room or air conditioner or heating, except for emergency lights, at work. At this time, turning off the power switch while searching for one is not preferable because it causes inefficiency of management and may inadvertently forget the power cutoff.

Accordingly, in Korean Patent No. 10-0918176, there is disclosed a switch, a frequency oscillation section for generating a frequency signal as a cutoff signal when the switch is turned on, a cutoff signal generated by the frequency oscillation section after a predetermined delay time elapses when the switch is turned on, A receiving unit receiving a frequency signal output from the transmitting unit, a remote control unit including a micom for transmitting a delay time determined by the user to the transmitting unit, And a power cutoff unit that includes a cutoff switch that cuts off power when the readout result in the readout unit is judged to be a cutoff signal. have.

However, according to the above-described prior art documents, when the power shutdown control device causes the computer in the document operation to be shut off, there is a problem that the power is shut off without storing the document file.

Korean Patent No. 10-0918176

In order to solve the problems of the related art, the present invention provides a power controller for each socket, which controls the power controller remotely from the control server and instructs a device such as a computer to store a file And a standby current control system for an EMS in which a file during operation is saved even if a down current is blocked.

In order to solve the above-described technical problem,
A control server for controlling a standby current for an EMS according to an embodiment of the present invention includes a control controller for managing a plurality of electronic devices and a portable terminal connected to the control controller through a wireless connection to remotely control an electronic device;
A second communication control unit for performing bidirectional communication with the control server, and a power connection unit for controlling a relay circuit configured therein, a power supply control unit for controlling power supplied to the electronic equipment, and a sensor unit A display unit for determining whether or not the LED is turned on, and a microprocessor for controlling the power controller, the plurality of power controllers being attached to an outlet provided inside the building to control power supplied to the electronic equipment; And
A gateway for relaying between the control server and the power controller;
Lt; / RTI >
Wherein the sensor unit comprises: an operation sensor for sensing movement of the electronic device or sensing that the electronic device is touched; And
A detection sensor for storing a document file and a program being worked on in an electronic device and for detecting whether the program is stored properly;
/ RTI >
When the microprocessor senses movement or touch of the electronic device through the sensor unit, the microprocessor connects the relay circuit in the power connection unit to supply power to the electronic device,
The gateway performs address translation when communication between the control server and the plurality of power controllers is performed, transmits the control signal from the control server to the corresponding power controller, and communication is performed between the control server, the power controller, and the plurality of electronic devices The control server converts the protocol assigned to each of the electronic devices into one protocol so that communication is established between the control server and the electronic device,
When the control server issues a control command to turn off the power of the electronic device, the microprocessor generates a save command signal for storing the document and the program in the electronic device capable of document operation, Transmission,
The detection sensor senses whether or not the electronic device has stored the document and the program, and when the storage of the document and the program is completed, the microprocessor controls the power control unit to cut off power to the corresponding electronic device.

The gateway may further include a first communication control unit configured to perform bidirectional communication with the control server and configured to perform wired or wireless communication, and a traffic control unit configured to control traffic generated in controlling the plurality of power control units.

In addition, the second communication control unit is characterized in that wireless communication is performed with the gateway using Bluetooth or Wi-Fi communication technology.

In addition, the power control unit may further include a power supply unit for supplying power to the power controller.

The microprocessor receives the movement of the electronic device detected by the operation sensor or the touch of the user, and opens the relay circuit through the power connection part.

The microprocessor may include an address unit to which the unique address of the power controller is assigned, and an administrator controls and manages a plurality of power controllers through the control server individually.

According to the embodiment of the present invention, a power controller is provided in each socket to control the power controller remotely from the control server, and a separate file storage command is issued to a device, such as a computer, Even if it is blocked, preservation of the working file can be done.

1 is an overall configuration diagram of a standby current control system for EMS,
Figure 2 is an overall block diagram of a standby current control system for EMS;
3 is a flowchart of a method of controlling the standby current for EMS.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications are possible.

EMS in the standby current control system for EMS stands for energy management system. It is an IT system that maximizes the energy saving effect after analyzing the energy patterns of buildings and users by using IT technology. (FEMS), a commercial energy management system (BEMS), and a home energy management system (HEMS).

As shown in FIG. 1 or FIG. 2, the standby current control system for the EMS includes a control server 100 in which an administrator controls and manages an electronic device, and a control server 100 that receives a control command received from the control server 100, And a power controller 300 for executing a control command received from the gateway 200. The gateway 200 receives the control command from the gateway 200,

The control server 100 is configured to allow an administrator to remotely control and manage a plurality of electronic devices and is configured to allow an administrator to control and manage the electronic devices through a separate control controller 101, The portable terminal 103 is configured to allow an administrator to control and manage the electronic device remotely.

The gateway 200 is configured to transmit a control command received from the control server 100 to the power controller 300. The gateway 200 is connected to the control server 100 through a LAN line and receives a command signal generated by the control server 100 So that the transmission is performed without loss.

The gateway 200 includes a first communication control unit 210 for communicating with the control server 100 and the power controller 300 and a traffic control unit 250 for controlling traffic generated when a command signal is transmitted to and received from a plurality of electronic devices And a protocol conversion unit 230 for converting a protocol of a command signal to be transmitted from the control server 100.

The first communication control unit 210 is configured to facilitate communication between the control server 100 and the power controller 300. The first communication control unit 210 is configured to communicate with the control server 100 through a LAN line to transmit signals to a wired network, And a plurality of power controllers 300 are configured to communicate with a wireless network by being connected with Bluetooth.

Here, the first communication control unit 210 is connected to the control server 100 through a LAN line and communicates signals to the wired network. However, the first communication control unit 210 is not limited thereto, and wireless communication may be performed using Bluetooth and WiFi Or one-wire communication method.

The traffic control unit 250 is configured to control the traffic allocated when remote control is performed on the electronic device in the control server 100. In the control server 100, a plurality of electronic devices simultaneously control signals , It functions to prevent a failure such as a traffic load from occurring.

The traffic control unit 250 performs address conversion when communication between the control server 100 and the plurality of power controllers 300 is performed and transmits the control signal from the control server 100 to the corresponding power controller 300 Lt; / RTI >

When the communication between the control server 100, the power controller 300 and the plurality of electronic devices is performed, the protocol conversion unit 230 converts the protocols assigned to the respective electronic devices into one protocol and transmits them to the control server 100 And is configured such that communication is smoothly performed in an electromagnetic period, and a payload, a transmission speed (BPS), a signal length, and the like are converted into one communication standard.

The power controller 300 is configured to control the power supplied to the electronic device by being attached to a socket provided inside the building. After the power controller 300 is attached to the socket, the plug provided in the electronic device is connected to the power controller The electronic device is configured to be able to receive power through the power controller 300 by being inserted into the tabs 303 formed in the electronic apparatus 300.

In addition, the power controller 300 is configured such that an LED 301 is formed on one side to provide information to the user whether or not the power controller 300 is operating.

The power controller 300 includes a second communication controller 310 for communicating with the gateway 200, a power controller 330 for supplying and controlling power, an electronic device connected to the power controller 300, A sensor unit 370 for detecting the presence or absence of operation of the electronic device and a display unit 390 for determining whether the LED 301 is turned on or off.

The second communication control unit 310 is configured to allow bidirectional communication with the gateway 200, and is configured to be capable of wireless communication with the gateway 200 through Bluetooth or Wi-Fi.

The second communication control unit 310 may be a separate communication unit for demodulating the data signal received from the gateway 200 or for modulating the data signal generated by the power controller 300 to the gateway 200 A modulation / demodulation apparatus may be constructed, but is not limited thereto.

The power controller 330 is configured to supply and control the power of the power controller 300. The power controller 300 includes a separate circuit for controlling the plug and the tap 303 formed in the power controller 300. In the present invention, A circuit (Relay Circuit) may be selectively constructed.

The power supply control unit 330 includes a power cutoff unit 331 for cutting off the relay circuit, a power supply connection unit 333 for connecting the relay circuit, a power supply unit 333 for supplying a separate power supply to operate the power control unit 300, (335).

The power interruption unit 331 is configured to interrupt the relay circuit provided in the power controller 300. More specifically, after receiving a signal for interrupting the relay circuit from the instruction control unit 353 to be described later, It functions to block the circuit directly.

The power connection unit 333 is configured to connect a relay circuit provided inside the power controller 300. Specifically, after receiving a signal for connecting the relay circuit from the command control unit 353, the power connection unit 333 directly connects the relay circuit And performs a connection function.

That is, the power interruption unit 331 and the power connection unit 333 are directly connected to and disconnected from the relay circuit included in the power control unit 330, so that the power control unit 330 can be controlled without any additional switching There are advantages.

The power supply unit 335 generates a separate power supply so that the power controller 300 can be smoothly driven. The power supply unit 335 is provided with a separate battery (not shown) so that power can be supplied from the battery.

The power generated by the power supply unit 335 is used when communication is performed in the second communication control unit 310 and the second communication control unit 310 is operated only when communication with the gateway 200 is performed. 2 communication control unit 310 can operate for one year or more on the basis of a coin-type battery battery according to the daily power consumption of 500 to 600 uA, which is advantageous in that it can be operated with low cost and high efficiency.

The microprocessor 350 is configured to control and manage the power controller 300 and to provide separate control commands to the electronic devices connected through the tab 303. The microprocessor 350 is an electronic device capable of performing wire / It may be configured to detect a separate communication protocol in the device and perform a function of converting the same protocol as that given to the electronic device. However, the present invention is not limited thereto and can be selectively configured.

The microprocessor 350 includes an authentication unit 351 for identifying a unique address given to the electronic device and an address control unit 353 and an address unit 355 for generating a save command for a computer,

The authentication unit 351 performs a function of determining whether the control signal received from the gateway 200 is a control signal to be transmitted to an electronic device connected to the power controller 300. In the power controller 300, (Or unique number) assigned to the supplied electronic device and the unique ID assigned to the address unit 355 described later are coincident with each other.

The authentication unit 351 is configured to receive the data signal from the second communication control unit 310 when the address unit 355 and the address assigned to the electronic device are the same, The received data signal is erased or deleted.

The command control unit 353 generates a corresponding control signal so that a Save signal can be transmitted to an electronic device capable of performing a document operation such as a computer or a mobile phone. A save signal is generated and delivered to an electronic device so that the system can be safely shut down after storing a document in operation.

The address unit 355 is configured to receive a command signal from the control server 100 in response to a unique ID of the power controller 300. Specifically, the address unit 355 is configured to receive a unique ID at the time of manufacturing the power controller 300 Or a unique address) to be smoothly controlled and managed when a plurality of power controllers 300 are controlled.

The address unit 355 is configured to receive the command signal from the control server 100 accurately by providing the assigned unique ID to the control server 100. [

The sensor unit 370 is configured to detect the presence or absence of operation and execution of the electronic device. The sensor unit 370 includes an operation sensor 371 that detects the operation of the electronic device and the user's touching of the electronic device, And a detection sensor 373 for detecting whether or not the save command is transmitted to the corresponding electronic device and whether or not the execution is confirmed.

The operation sensor 371 senses that a part of the electronic device moves or a user touches a part of the electronic device. The electronic device detects a minute movement of the electronic device by a user's operation, And transmits the operation and the presence / absence of touch to the microprocessor 350.

Here, the microprocessor 350 is preferably configured such that power is supplied to the electronic device by connecting the relay circuit through the power connection unit 333 when the operation sensor 371 receives operation and touch presence or absence.

The detection sensor 373 receives the save signal generated by the command control unit 353 in the electronic device and detects whether the document file and the program being operated are saved. The document file of the electronic device and the program in operation are saved The retransmission of the save signal to the command control unit 353 can be performed.

The display unit 390 is configured to notify the user of the operation of the power controller 300. When the power controller 300 is operated, the display unit 390 is configured to be illuminated on the LED 301 to inform the user in real time, The power supplied from the power supply unit 335 may be configured to be not supplied to the inside of the building.

In addition, the power controller 300 temporarily stores the power supplied from the building, and a standby power unit 391 may be configured to operate the power controller 300. [

The standby power unit 391 is configured to be used to operate and drive the power controller 300 by charging a part of the power supplied from the inside of the building. Even if power is not supplied from the power supply unit 335, The power controller 300 can be driven to simplify the fabrication of the power controller 300 and solve the power itself. However, the present invention is not limited thereto and can be selectively configured.

As shown in FIG. 3, when the control server 100 remote-controls the power supply of the electronic apparatus, that is, when a command related to power supply and shutdown is issued, a corresponding control signal To the gateway 200 (S110).

The gateway 200 converts the protocol of the command signal received from the control server 100 through the protocol conversion unit 230 and transmits the converted control signal to the power controller 300 controlled by the control server 100 The control server 100 and the gateway 200 are composed of wired and wireless communication and the gateway 200 and the power controller 300 are constituted by wireless communication so that the control signal generated by the control server 100 is smoothly transmitted And is configured to communicate with the power controller 300 (S120)

The control server 100 transmits a control command for connection of the relay circuit provided in the power control unit 330 to the command control unit 353 when a control command related to turning on the power of the electronic device is received The generated power is transmitted to the power connection unit 333 in step S140 and the power connection unit 333 is configured to smoothly supply power to the electronic device by connecting the relay circuit in step S150.

However, when the control server 100 receives a control command related to turning off the power of the electronic equipment (S130), the control server 353 instructs the command control unit 353 to turn on the electronic equipment After generating a save command signal for storing a document and a program, transmission is performed to the corresponding electronic apparatus (S160).

The electronic device is configured to perform a save command signal transmitted from the command control unit 353 and to detect whether or not the electronic device has stored a document and a program in a separately configured detection sensor 373, When the storage is completed (S170), the command control unit 353 generates a control command signal for interrupting the relay circuit provided in the power control unit 330 and transmits the generated control command signal to the power shutoff unit 331 (S180).

The power cutoff unit 331 is configured to cut off the relay circuit by performing the circuit cutoff signal transmitted to the command control unit 353 so that the power of the electronic apparatus that is supplied power from the power controller 300 can be cut off (S 190) .

Although the present invention has been described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto, It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: control server 101: control controller
103: portable terminal 200: gateway
210: first communication control unit 230: protocol conversion unit
250: Traffic control unit 300: Power controller
310: second communication control unit 330: power control unit
331: Power cutoff unit 333: Power connection unit
335: Power supply unit 350: Microprocessor
351: Authentication unit 353: Command control unit
355: address part 370: sensor part
371: motion sensor 373: detection sensor
390: Display section 391: Standby power section

Claims (6)

A control server including a control controller for managing a plurality of electronic devices and a portable terminal connected to the control controller by radio to remotely control the electronic device;
A second communication control unit for performing bidirectional communication with the control server, and a power connection unit for controlling a relay circuit configured therein, a power supply control unit for controlling power supplied to the electronic equipment, and a sensor unit A display unit for determining whether or not the LED is turned on, and a microprocessor for controlling the power controller, the plurality of power controllers being attached to an outlet provided inside the building to control power supplied to the electronic equipment; And
A gateway for relaying between the control server and the power controller;
Lt; / RTI >
Wherein the sensor unit comprises: an operation sensor for sensing movement of the electronic device or sensing that the electronic device is touched; And
A detection sensor for storing a document file and a program being worked on in an electronic device and for detecting whether the program is stored properly;
/ RTI >
When the microprocessor senses movement or touch of the electronic device through the sensor unit, the microprocessor connects the relay circuit in the power connection unit to supply power to the electronic device,
The gateway performs address translation when communication between the control server and the plurality of power controllers is performed, transmits the control signal from the control server to the corresponding power controller, and communication is performed between the control server, the power controller, and the plurality of electronic devices The control server converts the protocol assigned to each of the electronic devices into one protocol so that communication is established between the control server and the electronic device,
When the control server issues a control command to turn off the power of the electronic device, the microprocessor generates a save command signal for storing the document and the program in the electronic device capable of document operation, Transmission,
The detection sensor senses whether or not the electronic device has stored the document and the program, and when the storage of the document and the program is completed, the microprocessor controls the power control unit to stop the power supply to the corresponding electronic device, Control system.
The method according to claim 1,
Wherein the gateway comprises: a first communication control unit capable of bidirectional communication with the control server and configured by wired or wireless communication; And
A traffic control unit for controlling traffic generated while controlling a plurality of power controllers by the control server;
/ RTI > The system of claim 1,
The method according to claim 1,
Wherein the second communication control unit selects either the gateway or the Bluetooth or the Wi-Fi to perform wireless communication.
The method according to claim 1,
The power supply control unit includes a power cutoff unit for closing the relay circuit; And
A power supply for supplying power to the power controller;
/ RTI > The system of claim 1,
Claim 1
Wherein the microprocessor includes an authentication unit for determining a unique address assigned to the electronic device, and an instruction control unit for transmitting a save signal of a program to be operated by the electronic device.
Claim 1
And an address unit to which the power controller is assigned a unique address so that the power controller is individually controlled and managed.

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