KR101097125B1 - Power Management System Using Wire and Wireless Communication - Google Patents

Abstract

The present invention relates to a power management system using wired or wireless communication.

In the present invention, a power management system using wired or wireless communication distributes low-voltage power received from a transformer to a power usage device, which is a system of various electrical installations, detects the state of the transformer and a plurality of power use devices, transmits and receives the result, and power The distribution unit performing the opening and closing operation of the transformer, the distribution unit and the wireless communication by the state of the power supply and the power-using device to check the status in real time, the results of the statistical analysis for a certain period of time display and the statistical A power management device for controlling opening and closing of the power distribution unit and on / off of electric power according to a result; It includes.

Thereby, it is possible to provide an effect capable of remote control of the power distribution unit by wired / wireless communication, real-time confirmation of leakage, failure, fire of a power-using device at the terminal, and statistical management by date.

Power, Management, Wired / Wireless Communication, PLC, Zigbee, Bluetooth, RFID, LED Communication

Description

Power Management System Using Wire and Wireless Communication

The present invention relates to power management, and more particularly, to a power management system using wired or wireless communication.

A power management system is a system that obtains a target result or value by monitoring and controlling a distribution line or a worker that flows a specific power by using a computer, etc. There are two basic types of feedforward and feedback. Power management systems operate in a combination of electrical and mechanical methods, fluid pressures, and the like, and in fact, all aspects of building temperature and humidity control are affected by the control system.

The power management system according to the prior art relates to a system and method for managing on the user side the power consumption supplied by an electric installation of application number 10-1998-0707298, in particular a system for reducing the change in user peak power demand from the electric installation and We describe how. However, this conventional technology has a problem in terms of users because there is no technology for remote control to the distribution unit.

On the other hand, the power supply management system according to the prior art is designed to efficiently manage the power supply of the distribution line, the power equipment of the power supplier of the application number 20-2003-0026078, the overhead line of the overhead line and underground lines It detects the necessary information of all transformers, switches, manholes, power ports, etc. without distinction, and it is a wireless communication system consisting of short-range wireless communication type terminals of specific low power by radio wave method and PCS phone module which is a commercial long distance communication means. To collect the Internet Web Server for comprehensive information management, and use the collected data to reproduce certain new data and search it on not only the manager but also the PC, PDA, and mobile phone of the department concerned. There was a system for power facility management.

However, this conventional technique has a weak point in that each electric equipment load is lacking in the aspect of statistically displaying data to a user and controlling it.

Accordingly, there is a demand for the development of a user-centered power management system that can monitor and remotely control the electrical load of the terminal.

An object of the present invention is to provide a power management system using wired and wireless communication capable of real-time confirmation and statistical management by date and remote control, short circuit, failure, fire, etc. using wired and wireless communication for each load such as electrical equipment. .

In the power management system using wired or wireless communication according to an embodiment of the present invention, the low voltage power received from a transformer is distributed to a power using device which is a system of various electrical equipment, and the state of the transformer and a plurality of power using devices is detected and Distribution unit for transmitting and receiving the result and the opening and closing operation of the power; The state of the transformer, the power distribution unit and the power-using device is confirmed in real time by wire and wireless communication, and the results are statistically displayed for a certain period of time and the opening and closing of the power distribution unit according to the statistical results. And a power management device for controlling the power on and off; It may include.

The power distribution unit may include an opening and closing unit configured to control the supply of power by forming a plurality of switchgear for branching the received low voltage power for each branch circuit; A plurality of detectors A for real-time detecting whether there are active and reactive power used by the plurality of power-using devices, whether there is a short circuit, a failure, a fire, etc., whether there is a short circuit, a failure, a fire, etc. A detector including a detector B for detecting data of a load factor, a temperature and a pressure, a power factor, a frequency, a harmonic, and an unbalance between phases in real time; And a wired / wireless communication unit which transmits the detected data from the detection unit to the power management device and receives a remote control signal from the power management device. It may include.

The power management device may include: a wired / wireless communication module configured to receive the sensed data from the detector and to transmit the remote control signal to the power distribution unit; Whether there is a short circuit in the power transmission to the power usage device or the power reception from the transformer by communication with the wired / wireless communication unit of the distribution unit, the amount of effective and reactive power used by the power usage device, the transformer, the distribution unit, the load factor, An analysis module for real-time reception of temperature and pressure, power factor, frequency, harmonics, unbalance between phases and whether there is a power failure, and whether or not there is a short circuit; And a control module which transmits a control signal for controlling the opening and closing unit and the power distribution unit to the power distribution unit by the wired / wireless communication module according to the analysis of the analysis module. It may include.

The power management device controls the power distribution unit to control the wired / wireless communication unit through the wired / wireless communication module to prevent power supply to the closed unit when an abnormal signal is received from the power using device through the wired / wireless communication unit. Switch control module for controlling the transmission; It may further include.

The control signal may include a signal for controlling the opening and closing unit for interrupting power transmission to the plurality of power using devices, and an OFF signal for stopping the operation of the distribution unit.

In accordance with an aspect of the present invention, there is provided a power management method using wired or wireless communication, comprising: a first step of distributing low voltage power received from a transformer by a power distribution unit to a plurality of power using devices; The power distribution unit may include a second step of transmitting data of sensing the power using device, the transformer and its state to a power management system in real time; And a third step of the power management system receiving the real-time data by statisticizing the received data, generating a control signal according to a statistical value, and transmitting the generated control signal to the distribution unit, thereby remotely controlling the distribution unit. It may include.

By the power management system using wired and wireless communication according to the present invention as described above, the remote control of electrical loads such as electrical equipment of the distribution unit, real-time checks for leakage, failure, fire, etc., and statistical management by date Can be provided.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a view showing a power management device 70 using the power distribution unit 30 and the power distribution unit 30 for managing the power thereof according to an embodiment of the present invention. Referring to FIG. 1, a meter 10, a transformer 20, a power distribution unit 30, a power usage device 50, and a power management device 70 are illustrated to describe the present embodiment.

When the operation of the power distribution unit 30 of the present invention is turned on (ON), after receiving a high voltage power from the power provider KEPCO, through the meter 10, the transformer 20, the power distribution unit 30 side distribution ( 31) is supplied with low-voltage commercial power.

The meter 10 shows the current power based on the metering unit when the high voltage power is supplied from the transmission line of KEPCO. That is, the meter 10 converts the magnitude or change of the physical quantity into another physical quantity, that is, length, angle, electric pulse, or the like, using a suitable device or property of a substance, and displays the scale or number.

The transformer 20 converts the high voltage power received by the power transmission line through the meter 10 into low pressure and then transmits the low voltage to the power distribution unit 30.

The power distribution unit 30 distributes the low voltage power received from the transformer 20 to the power usage device 50 which is a system of various electric installations. In the power distribution unit 30, a distribution board 31, a sensing unit 35 including a plurality of detectors 35a to 35d, a wireless communication unit 37, and a plurality of switches 33a and 33b are arranged to provide a converter. Easily open and close or control and monitor devices. On the other hand, the distribution unit 30 will be described in more detail in FIG.

The power usage device 50 may be a mechanical or electronic device that consumes power such as a computer, a controller, a mechanical device, and the like. That is, the power usage device 50 may be a device that consumes the power supplied by being distributed through the power distribution unit 30.

The power management device 70 checks whether there is a short circuit in power transmission to the power using device 50 by wireless communication with the power distribution unit 30, ② the amount of effective and reactive power used by the power using device 50, and ③ the transformer. ④ load factor, temperature and pressure, ④ power factor of the power distribution unit 30, frequency, harmonics, unbalance between phases ⑤ can check in real time whether there is a power failure and whether there is a short circuit, and accordingly, the switch 33, the power distribution unit 30 ) Can be controlled. In addition, the detected results of the day, month and year can be statistically databased.

2 is a block diagram showing the configuration of the power distribution unit 30 of FIG.

Referring to FIG. 2, the distribution unit 30 may include a distribution panel 31, an opening and closing unit 33, a sensing unit 35, and a wired / wireless communication unit 37.

The power distribution board 31 refers to a device in which a switch is provided for each branch circuit in a wiring where the branch line is divided from the trunk line to each branch circuit. On the other hand, the distribution panel of the house is a simple one arranged by fixing the cut-out switch, but in the case of the building, a distribution panel made of steel is installed in the wall at least on each floor and has a full opening and closing door. In the present invention, the distribution panel 31 distributes the power provided through the switches 33a and 33b.

The opening and closing portion 33 is formed of a plurality of switches 33a and 33b, also referred to as a switch. In the present invention, the opening and closing part 33 is used for controlling the power supply to the power use device of the terminal.

The sensing unit 35 is formed of a plurality of detectors 35a, 35b, 35c, and 35d.

The first detector 35a detects the amount of effective and reactive power used by the first power usage device 50a and whether there is a short circuit, a failure, or a fire in the first power usage device 50a in real time.

The second detector 35b detects the amount of effective and free power used by the second power using device 50b and whether there is a short circuit, a failure, or a fire in the second power using device 50b in real time.

The third detector 35c detects the amount of effective and free power used by the third power using device 50c and whether there is a short circuit, a failure, or a fire in the third power using device 50c in real time.

The fourth detector 35d may include a short circuit in the transformer 20 and the power distribution unit 30, a load factor of the transformer, a temperature and pressure, a power factor of the transformer 20 and the power distribution unit 30, frequency, harmonics, and phase unbalance. Detect in real time. Thereby, the opening-closing part 33 and the power distribution part 30 can be controlled. By transmitting the detected result to the power management device 70, it can be a database by statistic by day, month, year.

The wired / wireless communication unit 37 transmits the data detected by the detection unit 35 to the power management device 70, and may receive a remote control signal from the power management device 70. The wireless communication used herein may be wireless LAN, WiFi, Wibro, PLC, ZigBee, Bluetooth (Bluetooth), UWB (Ultra WideBand), communication using LED, etc., wired communication may also be used.

3 is a block diagram showing the configuration of the power management device 70 of FIG.

Referring to FIG. 3, the power management device 70 may include a wired / wireless communication module 71, a control module 73, an analysis module 75, and a switch control module 77.

Meanwhile, the term “module” in the present specification may mean a functional and structural combination of hardware for performing the technical idea of the present invention and software for driving the hardware. For example, the module may mean a logical unit of a predetermined code and a hardware resource for performing the predetermined code, and means a physically connected code or does not necessarily mean one kind of hardware. It can be easily inferred by the average expert in the art.

The wired / wireless communication module 71 receives the data detected by the sensing unit 35 of the power distribution unit 30 and transmits a control signal to the power distribution unit 30. The wireless communication used herein may be wireless LAN, WiFi, Wibro, PLC, ZigBee, Bluetooth (Bluetooth), UWB (Ultra WideBand), communication using LED, etc., wired communication may also be used.

The analysis module 73 communicates with the wired / wireless communication unit 37 of the power distribution unit 30 to check whether there is a short circuit, failure, fire, etc. in power transmission to the power using device 50 and power reception from the transformer 20. , ② the amount of effective and reactive power used by the power usage device 50, the transformer 20, the power distribution unit 30, ③ the load rate, temperature and the power usage equipment 50, transformer 20, the power distribution unit 30 Pressure, ④ power factor 50, transformer 20, power factor of the power distribution unit 30, frequency, harmonics, unbalance between phases ⑤ power use equipment 50, transformer 20, power distribution unit 30 for By checking whether there is a power failure, whether there is a short circuit, failure, fire, etc. in real time, the detected results can be statistically databased by day, month, and year to form a database. Although not shown, a database statistically analyzed by the analysis module 75 may be displayed by a display unit (not shown).

The control module 75 may transmit a signal for controlling the opening and closing unit 33 and the power distribution unit 30 to the power distribution unit 30 by the wired / wireless communication module 71 according to the analysis of the analysis module 73. Here, the control signal is a signal for controlling the opening and closing portion 33 of the power distribution unit 30 to block the power transmission to each power-using device 50, the OFF (OFF) for stopping the operation of the power distribution unit 30 ) Signal.

The switch control module 77 is a module for controlling the corresponding switch 33 when receiving a failure element transmitted through the wired / wireless communication unit 37 of the distribution unit 30. That is, when the switch control module 77 determines that an abnormal signal has been received from the wired / wireless communication unit 37 of the distribution unit 30, the wireless communication module 71 is prevented from supplying power through the corresponding switch unit 33. The control command may be transmitted to the wireless communication unit 37.

4 is a flowchart illustrating a power management method using wired or wireless communication according to an embodiment of the present invention. 1 to 4, the distribution unit 30 distributes the low voltage power received from the transformer 20 to the power usage device 50 (S10).

The power distribution unit 30 transmits the power using device 50, the transformer 20, and data which detects its state to the power management system 70 in real time (S20).

The power distribution unit 30 includes a plurality of detectors 35a to 35d, wherein the first detector 35a includes the amount of effective and reactive power used by the first power usage device 50a and the first power usage device 50a. Detect in real time whether there is a short circuit, breakdown, fire, etc. In addition, the second detector 35b detects in real time whether the effective and free amount of power used by the second power using device 50b, or whether there is a short circuit, a failure, or a fire in the second power using device 50b. The third detector 35c detects in real time whether there is an effective or free amount of power used by the third power using device 50c, or whether there is a short circuit, failure or fire in the third power using device 50c. On the other hand, the fourth detector (35d) is the presence of a short circuit, failure, fire, etc. in the transformer 20 and the power distribution unit 30, the load factor, temperature and pressure of the transformer, the transformer 20 and the power distribution unit 30 Detects power factor, frequency, harmonics, and phase unbalance in real time. Real-time detected data is transmitted in real time to the power management device 70 through the wired or wireless communication unit 37.

The power management system 70 statistically receives the received data, generates a control signal according to the statistical value, and transmits the generated control signal to the distribution unit 30 (S30).

That is, the power management system 70 is short-circuit, failure, fire, etc. in the power transmission to the power-using device 50 and the power reception from the transformer 20 by the communication with the wired / wireless communication unit 37 of the distribution unit 30. Presence or absence, ② the amount of effective and reactive power used by the power supply device 50, transformer 20, power distribution unit 30, ③ load ratio of the power supply device 50, transformer 20, power distribution unit 30 , Temperature and pressure, ④ power factor device 50, transformer 20, power distribution unit 30 power factor, frequency, harmonics, unbalance between phases ⑤ power device 50, transformer 20, power distribution unit 30 ) In real-time to check whether there is a power outage or whether there is a short circuit, the detected results can be database by statistical day, month and year.

According to the analysis, the power management system 70 may transmit a signal for controlling the opening and closing unit 33 and the power distribution unit 30 to the power distribution unit 30.

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

By using the power management device according to the present invention, it is possible to provide convenience by providing power management for the power distribution unit to the user through the wired / wireless communication unit.

1 is a view showing a power distribution unit and a power management system for managing power thereof according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of the power distribution unit of FIG. 1.

3 is a block diagram illustrating a configuration of the power management system of FIG. 1.

4 is a flowchart illustrating a power management method using wired or wireless communication according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: meter 20: transformer

30: power distribution unit 50: power equipment

70: power management system

Claims (5)

In order to branch out the low voltage power received from the transformer for each branch circuit, it is distributed through a switch unit formed with a plurality of switches to control the power supply by various electric equipment systems, and to supply power to the electric equipment using various electrical equipment systems. A power distribution unit configured to detect a state of the transformer and a plurality of power using devices, transmit data detected through a wired / wireless communication unit to a power management device, and receive a remote control signal from the power management device to open / close the power; And a wired / wireless communication module for receiving data sensed through wired / wireless communication with the power distribution unit and transmitting the remote control signal to the power distribution unit, and transmitting power to the power usage device by communication with the wired / wireless communication unit of the power distribution unit. And whether there is a short circuit, breakdown, fire, etc. in power reception from the transformer, the amount of effective and reactive power used by the power supply device, the transformer, or the distribution unit, load factor, temperature and pressure, power factor, frequency, harmonics, and unbalance between phases. Analysis module for real-time reception of power failure and whether there is a short circuit, and statisticalize the received result by day, month, year, and database; Control module for transmitting to the power distribution unit by a wired or wireless communication module, the power through the wired and wireless communication unit The switch unit and the wired / wireless communication are configured with a switch control module for controlling to transmit a control command to the wired / wireless communication unit through the wired / wireless communication module to prevent the power supply to the switch unit when an abnormal signal is received from the user device. By checking the state of the transformer, the power distribution unit and the power-using device in real time, and statistically display the results of the check for a certain period of time, according to the statistical results the opening and closing of the power distribution unit and the power on and off In the power management system using a wired or wireless communication consisting of a power management device for controlling, The distribution unit includes a plurality of detectors A that detects whether there are active and reactive power used by a plurality of power-using devices in real time, such as a short circuit, a failure, a fire, and the like. Characterized in that it further comprises a detector formed of a detector B for detecting in real time, whether the load ratio, temperature and pressure, power factor, frequency, harmonics, and unbalanced data. Power management system using wired and wireless communication. delete delete delete delete

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