KR20120086880A - Power management terminal - Google Patents

Abstract

PURPOSE: A power management terminating device is provided to easily analyze power usage amount of an electronic device and to intellectually control the power usage amount. CONSTITUTION: A power management terminating device(20) comprises a communications unit(21), a power measurement unit(22), a power data generating unit(23), and a control data generating unit(24). The communications unit communicates with a user terminal. The power measurement unit is connected to an electronic device and measures power usage amount of the electronic device. The power data generating unit creates power data by analyzing data measured through the power measurement unit and provides the created power data to the user terminal. The control data generating unit creates a control data by analyzing the created power data and controls operation of the electronic device according to the control data.

Description

Power Management Terminator {POWER MANAGEMENT TERMINAL}

The present invention relates to a power management terminal, and more particularly, to a power management terminal for monitoring the power usage of the electrical device in conjunction with the user terminal.

Due to the recent increase in power consumption due to industrial development and improvement of living culture, the maximum power consumption has been continuously increasing, and problems such as power production cost and power supply and demand have been raised. Thus, there is a need for a technique for effectively monitoring and controlling power usage.

In general, the amount of power used in each household is metered and billed by the electricity meter, for example, using the analog electricity meter or digital electricity meter to meter the power consumption of each household, and charge the amount of use according to the meter reading result.

However, such a conventional power management is limited to collect the amount of power used in each home, calculate the amount of use accordingly, and to charge, thereby preventing unnecessary power usage and efficiently managing power.

Accordingly, there is a need for a terminal or system for intelligently controlling power usage.

SUMMARY OF THE INVENTION The present invention has been proposed to meet the above demands, and an object thereof is to provide a power management termination device for monitoring power usage of an electric device in connection with a user terminal.

In order to achieve the above object, the present invention provides a power management end device for monitoring power usage of an electrical device in association with a user terminal, comprising: a communication unit communicating with the user terminal; A power measurement unit connected to the electric device to measure an amount of power used in the electric device; A power information generation unit for generating power information by analyzing the information measured by the power measurement unit, and providing the generated power information to the user terminal; And generating a control information for controlling the operation of the electric device by analyzing the power information, and controlling the operation of the electric device according to the control information.

According to the present invention, it is possible to provide a power management termination device that analyzes and intelligently controls power usage of an electric device in connection with a user terminal. In particular, the user terminal may access the power management terminal through the mobile phone network, input setting information for generating power information and control information, or receive power information or control information. Therefore, the user can access the customer premises device through the user terminal to check the power information or the control information, and control the operation of each electric device as necessary. Therefore, unnecessary power usage can be prevented and power can be managed efficiently.

1 is a configuration diagram showing the configuration of a power management system according to a first embodiment of the present invention.
2 is a flowchart illustrating a power management method of a power management system according to a first embodiment of the present invention.
3 is a configuration diagram illustrating a configuration of a power management system according to a second embodiment of the present invention.
4 is a flowchart illustrating a power management method of a power management system according to a second embodiment of the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention.

1 is a configuration diagram showing the configuration of a power management system according to a first embodiment of the present invention. The first embodiment is characterized in that the power management terminal device 20 and the user terminal 30 are linked to monitor power usage of the electric device and control the operation of the electric device.

As shown, the power management system 10 according to an embodiment of the present invention includes a power management termination device 20 and a user terminal 30.

The power management termination device 20 includes a communication unit 21, a power measurement unit 22, a power information generation unit 23, a control information generation unit 24, a storage unit 25, and a display unit 26. In connection with the user terminal 30 monitors the power usage of the electric device and controls the operation of the electric device. Here, the electric device may be a home appliance used in a home.

The communication unit 210 may communicate with the user terminal 30 through a mobile phone network, Wi-Fi, a web server or an application. For example, the mobile phone network may be a DMA, WCDMA, GSM, WiMAX or Long Term Evolution (LTE) network.

In addition, when communicating with the user terminal 30 using Wi-Fi wireless Internet, the power management terminal 20 further includes an RJ45 connector, it can provide an Internet service to a terminal (computer, etc.) connected via a UTP cable. have. For example, a user may use an Internet service by connecting his terminal (computer, laptop, etc.) to the power management terminal 20 using a UTP cable, and in particular, the power information or control information may be easily provided through a web server. You can check or enter the setting information.

The power measuring unit 22 is connected to the electric device to measure the amount of power used in the electric device to generate the measurement information, and then transmits the generated measurement information to the power information generation unit 23. The measurement information may include information on the amount of current input to the electric device or information on the time of measuring the amount of current.

Here, the power measuring unit 22 may include a sensor, a digital counter or a timer. The sensor is to measure the amount of current input to the electric device, and can sense the amount of current in an analog manner. The digital counter may be an analog-to-digital converter for converting the analog current information measured by the sensor into digital current information. The timer is for measuring time.

For example, an electric outlet may be provided in a portion of the power management termination device 20. When an outlet of an electric device is connected to the electric outlet, the power measuring unit 22 senses a current using a sensor. The sensed current value is digitized by a digital counter, the time is measured by a timer, and then the measured information is transmitted to the power information generator 23.

The power information generation unit 23 analyzes the measurement information received from the power measurement unit 22 to generate power information, and provides the generated power information to the user terminal 30. For example, when the user terminal 400 requests power information by accessing the power management terminal 20 through a Wi-Fi wireless Internet network, a mobile phone network, a web server, or an application, the power management terminal 20 is generated. The power information is transmitted to the user terminal 30.

In addition, the power information generation unit 23 transfers the generated power information to the control information generation unit 24.

The power information may be the total amount of power consumed by the electrical device connected to the power management termination device 20. The power information generator 23 may generate power information indicating the amount of accumulated power used from the time when the electric device is turned on, using the measured current information and the time information.

The operation of the power information generation unit 23 will be described in detail as follows.

First, the power information may be information about a time for which the turn-off state of the corresponding electric device continues. The power information generation unit 23 calculates the time duration for which the state in which the amount of current input to the electric device is less than or equal to the threshold value is used using the measured current information and time information. Here, the threshold value is a value for distinguishing whether the electric device is turned on or off, and is preferably set to the minimum power value required to move the electric device. If the amount of current measured is below the threshold, the electrical device may be considered turned off.

In addition, the power information generation unit 23 may further include information on whether the duration exceeds the waiting time in the power information by comparing the duration with a preset waiting time.

Second, the power information may be information about a time when the electric device is continuously operated. The power information generation unit 23 calculates the time duration for which the state in which the amount of current input to the electric device is greater than or equal to the threshold value is used using the measured current information and time information. In this case, when the amount of current is greater than or equal to the threshold value, the electric device may be regarded as turned on.

In addition, the power information generation unit 23 may further include information on whether the operation time exceeds the operation allowance time in the power information by comparing the operation time with a preset operation allowance time.

Third, the power information may be information on the cumulative total amount of current used in the electric device from the reference point. The power information generation unit 23 calculates a cumulative total amount by summing the amount of current input to the electric device from the reference time by using the measured current information and time information.

In addition, the power information generation unit 23 may further include information on whether the cumulative total amount exceeds the limit value in the power information by comparing the cumulative total amount with a preset limit value.

Fourth, the power information may be information on the instantaneous amount of power (W / sec) used in the electric device. The power information generation unit 23 calculates the instantaneous amount of power in the electric device by using the measured current information and time information.

In addition, the power information generation unit 23 may further include information on whether the instantaneous power amount exceeds the limit value by comparing the instantaneous power amount with a preset maximum value in the power information. Here, the maximum value is the maximum instantaneous power value allowed by the electric device, and when the maximum value is exceeded, it may be considered that an overcurrent flows or a short circuit occurs in the electric device.

The control information generator 24 generates control information for controlling the operation of the electric apparatus using the power information received from the power information generator 23, and displays the display unit 26 and the electric apparatus according to the generated control information. To control the operation. For example, the display unit may control to generate an alarm, cut off standby power input to the electric device, or turn off the electric device. In addition, the control information generation unit 24 transmits control information to the user terminal 30 as necessary.

Looking at the operation of the control information generation unit 24 in detail as follows.

First, when it is determined through the power information that the time that the turn-off state of the corresponding electric device is maintained exceeds the standby time, the control information generation unit 24 includes a control including a command to cut off the standby power of the electric device. Generate information.

Second, if it is determined through the power information that the time the electric device is continuously operated exceeds the allowable time, the control information generation unit 24 generates the control information including a command to turn off the electric device do.

Third, when it is determined through the power information that the cumulative total amount of current used in the electric device exceeds the limit value, the control information generation unit 24 includes control information including a command or an alarm command to turn off the electric device. Create

Fourth, if it is determined through the power information that the instantaneous amount of power used in the corresponding electric device exceeds the maximum value, the control information generation unit 24 receives the control information including a command or an alarm command for turning off the electric device. Create

The storage unit 25 may store information processed by the power management termination device 60. For example, the measurement information measured by the power floor unit 22 and the power information generation unit 23 may be generated. The control information generated by the power information or the control information generation unit 24 may be stored. In addition, as the setting information received from the user terminal 30, information necessary for data processing of the power information generation unit 23 and the control information generation unit 24, for example, a preset waiting time, a threshold value, an operation permission You can save the time, limit value, and maximum value.

The display unit 26 may be an LED or a speaker, and generates an alarm when an alarm command is included in the control information received from the control information generation unit 24. For example, an alarm can be triggered by the LED's glow or beep.

The user terminal 30 is a device for a user to check power information or control information or input setting information. The user terminal 30 may be a PC, a mobile phone, a smart phone, or the like. The user terminal 30 may access the power management termination device 20 to request power information or control information, receive the corresponding information, and display the received information through the display unit. In addition, setting information necessary for generating power information or control information may be received from the user and transmitted to the power management termination device 20.

The user terminal 30 may access the power management terminal 20 using a Wi-Fi wireless Internet network or a mobile phone network. Alternatively, after downloading a related application through a web server, the application may be executed to access the power management terminal 20.

The user terminal 30 connected to the power management terminal device 20 may receive a collection cycle of measurement information, a waiting time, a threshold value, an operation allowable time, a limit value, a maximum value, and the like. Information on whether or not to send may also be input. Of course, the setting information may be arbitrarily set by the system administrator.

Table 1 shows an example showing power information, control information, and setting information processed by the power management system 10 according to the first embodiment of the present invention.

Terminal 1 Terminal 2 Terminal 3 condition One 0 One Explanation Refrigerator washer air conditioner Collection cycle 2h 1h 30 m Electrical
Start time of operation 2010.10.2.12 2010.10.3.24 2010.10.4.05 Cumulative Power 32kw 12kw 2kw waiting time 5 m 3m 2 m Allowable time 100h 200h 400h Limit value
(Limited power) 500kw 400kw 300kw Value
(Maximum instantaneous power) 10 W / sec 3 W / sec 3 W / sec

In the state, "1" represents a state in which the electric device is turned on, and "0" represents a state in which the electric device is turned off. h represents time and m represents minutes.

As such, the power management system 10 according to an embodiment of the present invention measures and collects information for power management, and analyzes the collected information to generate various power information and control information. In addition, setting information necessary for processing power information and control information may be set by an administrator or received from the user terminal 30.

2 is a flowchart illustrating a power management method of a power management system according to a first embodiment of the present invention.

First, the user terminal 30 connects to the power management terminal 20 through the mobile phone network and transmits the setting information (S20). For example, the user terminal 30 receives the setting information from the user through the input unit, and transmits the received setting information to the power management end device 20.

Subsequently, the power management termination device 20 stores the setting information received from the user terminal 30 in the storage unit 25 (S21).

The power measurement unit 22 of the power management termination device 20 measures the amount of current and time input to the electrical device connected to the power management termination device 20 (S22), and the power information generation unit 23 measures the power. The measurement information received from the unit 22 is analyzed to generate power information (S23). The control information generation unit 24 analyzes the control information received from the power information generation unit 23 to generate control information (S24), and controls the electric device according to the generated control information (S25).

The user terminal 30 requests power information or control information by accessing the power management termination device 20 through the cellular phone network (S26), and the power management termination device 20 supplies power information or control information corresponding to the request. It transmits to the user terminal 30 (S27). The user terminal 30 may display the received power information through the display unit and provide the received power information to the user.

In the first embodiment, the case where one power management termination device 20 is provided in the power management system 10 has been described, but it is also possible to include a plurality of power management termination devices 20. When the power management system 10 includes a plurality of power management termination devices 20, the plurality of power management termination devices 20 may be linked to monitor power usage of an electrical device connected to each power management termination device 20. Can be controlled. For example, when a plurality of power management termination devices 20 are installed in one home, control information generated by the plurality of power management termination devices 20 may be collected by one of the power management termination devices 20 to provide electricity. In addition to the power consumption of each device, you can analyze the total power consumed in a home.

3 is a configuration diagram illustrating a configuration of a power management system according to a second embodiment of the present invention. The second embodiment is characterized in that the power management termination device 60 and the customer premises device 70 is linked to monitor the power usage of the electrical device, and to control the operation of the electrical device.

As shown, the power management system 50 according to an embodiment of the present invention includes a power management termination device 60, a customer premises equipment (CPE) 70 and the user terminal 80.

The power management termination device 60 includes a communication unit 61, a power measurement unit 62, a control unit 63, a storage unit 64, and a display unit 65, and is connected to the customer premises device 70. Monitor power usage and control the operation of electrical devices.

The communication unit 61 communicates with the customer premises apparatus 70 and transmits the measurement information to the customer premises apparatus 70 or receives control information from the customer premises apparatus 70 and transmits the control information to the control unit 63. Here, the communication unit 61 may communicate with the customer premises device 70 by Zigbee, PLC (Power Line Communication) or RF communication method.

The power measuring unit 62 is connected to the electric device to measure the amount of power used in the electric device. Specific functions of the power measuring unit 62 are the same as those described in the first embodiment.

The control unit 63 transmits the information measured by the power measuring unit 62 to the customer indoor device 70 through the communication unit 61. Here, the measurement information may include information on the amount of current input to the electrical device or information on the time of measuring the amount of current. The control unit 63 may transmit the measurement information to the customer indoor device 70 in real time, or temporarily store the measurement information in the storage unit 64, and transmit the measurement information to the customer indoor device 70 at a predetermined cycle.

In addition, the control unit 63 controls the operation of the display unit 65 and the electric device according to the control information received from the customer indoor device 70.

The storage unit 65 may store information processed by the power management terminal device 60. For example, the storage unit 65 stores the measurement information measured by the power measuring unit 62 or is received from the customer premises device 70. The stored control information. For example, when control information including setting information about a measurement information collection cycle is received from the customer indoor device 70, the corresponding information is stored in the storage unit 65, and the control unit 63 according to the corresponding cycle. Send measurement information.

The display unit 65 may be an LED or a speaker, and generates an alarm when an alarm command is included in the control information received from the customer premises apparatus 70. For example, an alarm can be triggered by the LED's glow or beep.

The customer premises device 70 includes a communication unit 71, a control information generation unit 72, a control information generation unit 73, a storage unit 74, and a display unit 75.

The communication unit 71 communicates with the power management termination device 60 or the user terminal 80, and transmits the power information generated by the power information generation unit 72 to the user terminal 80, or the control information generation unit ( The control information generated by 73 may be transmitted to the power management termination device 60. In addition, data for generating control information may be received from the user terminal 80.

Here, the communication unit 71 may communicate with the power management termination device 60 by Zigbee, PLC (Power Line Communication) or RF communication method, IP network, Zigbee (PLC) or PLC It can communicate with the user terminal 80 in a (Power Line Communication) manner.

The power information generation unit 72 analyzes the measurement information received from the power management end device 60 to generate power information, and provides the generated power information to the user terminal 80 through a web server. For example, when the user terminal 80 requests power information by accessing the customer premises apparatus 70 through a web server or an application, the customer premises apparatus 70 provides the generated power information. In addition, the power information generation unit 72 of the customer indoor device 70 transfers the generated power information to the control information generation unit 73. Specific functions of the power information generation unit 72 are the same as those described in the first embodiment.

The control information generation unit 73 generates control information for controlling the operation of the electric device by using the power information received from the power information generation unit 72, and transfers the generated control information to the power management end device 60. send. The control information generated by the control information generation unit 73 may be transmitted to the display unit 75 and may be transmitted to the user terminal 80 as necessary. Specific functions of the control information generation unit 73 are the same as those described in the first embodiment.

The storage unit 74 may store measurement information received from the power management terminal device 60, power information generated by the power information generation unit 72, or control information generated by the control information generation unit 73. . In addition, information necessary for data processing of the power information generation unit 72 and the control information generation unit 73 may be stored, for example, a preset waiting time, a threshold value, an operation allowable time, a limit value, and a maximum value.

The display unit 750 may be an LED or a speaker, and generates an alarm when an alarm command is included in the control information received from the control information generator 73. For example, an alarm can be triggered by the LED's glow or beep.

The user terminal 80 is a device for a user to check power information or control information or input setting information. The user terminal 80 may be a PC, a mobile phone, a smart phone, or the like. The user terminal 80 may access the customer premises 70 to request power information or control information, receive the corresponding information, and display the received information through the display unit. In addition, setting information necessary for generating power information or control information may be received from the user and transmitted to the customer premises device 70.

The user terminal 80 may download a related application through a web server, execute the corresponding application, and access the customer premises 70.

For example, the user may set the collection period, the waiting time, the threshold value, the operation allowable time, the limit value, the maximum value, and the like of the measurement information through the user terminal 80, and may set whether to generate an alarm under a predetermined condition. have. Of course, the setting information may be arbitrarily set by the system administrator.

4 is a flowchart illustrating a power management method of a power management system according to a first embodiment of the present invention.

First, the user terminal 80 accesses the customer premises apparatus 70 through a web server and transmits setting information (S40). For example, the user terminal 80 receives the setting information from the user through the input unit, and transmits the received setting information to the customer indoor device 70.

Subsequently, the customer premises device 70 stores the setting information received from the user terminal 80 in the storage unit 74 (S41). In addition, the customer premises device 70 may transmit the received configuration information to the power management termination device (60).

The power measurement unit 220 of the power management termination device 60 measures the amount of current and time input to the electrical device connected to the power management termination device 60 (S42), and the control unit 63 controls the communication unit 61. The measurement information is transmitted to the customer premises device 70 through (S43).

The power information generation unit 72 and the control information generation unit 73 of the customer indoor device 70 generate power information and control information from the received measurement information (S44), and generate the generated control information from the power management termination device ( 60) (S45).

The power management termination device 60 controls the electric device according to the received control information (S46).

The user terminal 80 requests power information or control information by accessing the customer premises apparatus 70 through a web server (S47), and the customer premises apparatus 70 transmits power information corresponding to the received request to the user terminal (S). 80) (S48). The user terminal 80 may display the received power information through the display unit and provide the received power information to the user.

In the second embodiment, the case where one power management termination device 60 is provided in the power management system 10 has been described, but it is also possible to include a plurality of power management termination devices 60. When the power management system 10 includes a plurality of power management termination devices 60, one customer premises device 70 is associated with a plurality of power management termination devices 60 to each power management termination device 60. Monitor and control the power usage of electrical devices connected to For example, when a plurality of power management termination devices 60 are installed in one household, power information received from the plurality of power management termination devices 60 may be collected to consume power in each household as well as power consumption of each of the electrical devices. Analyze the total power that is being generated.

In addition, in the second embodiment, the case where one customer premises device 70 is provided in the power management system 10 has been described. However, it is also possible to include a plurality of customer premises devices 70.

Although the technical spirit of the present invention has been described in detail according to the above-described preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, it will be appreciated by those skilled in the art that various embodiments are possible within the scope of the technical idea of the present invention.

10: power management system 20: power management termination device
21: communication unit 22: power measurement unit
230: power information generation unit 24: control information generation unit
25: storage unit 26: display unit
30: user terminal
50: power management system 60: power management termination
61: communication unit 62: power measurement unit
63: control unit 64: storage unit
65: display unit 70: customer premises device
71: communication unit 72: power information generation unit
73: control information generation unit 74: storage unit
75: display unit 80: user terminal

Claims (14)

In the power management terminal for monitoring the power usage of the electrical device in conjunction with the user terminal,
A communication unit communicating with the user terminal;
A power measurement unit connected to the electric device to measure an amount of power used in the electric device;
A power information generation unit for generating power information by analyzing the information measured by the power measurement unit, and providing the generated power information to the user terminal; And
A control information generation unit for generating control information for controlling the operation of the electric device by analyzing the power information and controlling the operation of the electric device according to the control information
Power management termination device comprising a.
The method of claim 1,
The measurement information includes information on the amount of current input to the electric device or information on the time of measuring the amount of current
Power Management Termination.
The method of claim 1,
The power information,
Information on the time the turn-off state of the electrical device lasted, information on the time the turn-on state of the electrical device lasted, information on the cumulative total amount of current used in the electrical device, and At least one of the information about the instantaneous amount of power
Power management termination
The method of claim 1,
The control information includes at least one of a command to cut off standby power of the electric device, a command to turn off the electric device, and an alarm command.
Power management termination
The method of claim 1,
The communication unit,
Communicating with the user terminal by Wi-Fi, CDMA, WCDMA, GSM, WiMAX or Long Term Evolution (LTE) scheme
Power Management Termination.
The method of claim 1,
The communication unit communicates with the user terminal in a Wi-Fi (WiFi) method, and provides an Internet service to the terminal connected via a UTP cable
Power Management Termination.
The method of claim 1,
The power measuring unit,
Including sensors, digital counters or timers
Power Management Termination.
The method of claim 1,
The power information generation unit,
Calculating a time duration of a state in which the amount of current input to the electrical device is less than a threshold value, and generating the power information including information on the time duration of the turn-off state of the electrical device;
Power Management Termination.
The method of claim 8,
The control information generation unit,
Generating control information including a command to cut off standby power of the electric device when the turn-off state lasts longer than a preset waiting time;
Power Management Termination.
The method of claim 1,
The power information generation unit,
Calculating a time duration of a state in which the amount of current input to the electrical device is equal to or greater than a preset threshold value, thereby generating the power information including information on the time duration of the turn-on state of the electrical device;
The control information generation unit,
Generating control information including a command to turn off the electric device when the turn-on state duration exceeds a preset allowable time;
Power Management Termination.
The method of claim 10,
The power information generation unit,
Generating the power information including information on the cumulative total amount of current used in the electric device by summing the amount of current input to the electric device from a reference time point,
The control information generation unit,
Generating control information including a command to turn off the electric device or an alarm command when the cumulative total amount exceeds a limit value;
Power Management Termination.
The method of claim 1,
The power information generation unit,
Generate the power information including the instantaneous amount of power used in the electrical device,
The control information generation unit,
Generating control information including a command to turn off the electric device or an alarm command when the instantaneous power amount exceeds a maximum value
Power Management Termination.
The method of claim 1,
The user terminal,
Accessing the power management terminal through a mobile phone network, inputting setting information for generating the power information and control information, or receiving the power information or the control information;
Power Management Termination.
The method of claim 1,
The user terminal,
Accessing the power management terminal through a web server or an application, inputting setting information for generating the power information and control information, or receiving the power information or the control information;
Power Management Termination.

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