KR20120100199A - Automation communication terminal that be able to inspect switch or frtu - Google Patents

Abstract

PURPOSE: An automatic distribution terminal system for inspecting a switch and an automatic distribution terminal device are provided to reduce the vulnerability of security by controlling an external box locking device and to inspect a switch and an automatic distribution terminal device without separation of a control cable. CONSTITUTION: An automatic distribution terminal device(210) performs an opening control command of a switch by monitoring an operation state of a switch. A communication device(220) connects a main device and the automatic distribution terminal device. An automatic online inspecting module(230) determines the automatic distribution terminal device. The automatic online inspecting module monitors an operation state of the switch. A power supply unit(240) supplies power to the automatic online inspecting module.

Description

Distribution automation terminal system capable of inspecting switchgear and distribution automation terminal device {AUTOMATION COMMUNICATION TERMINAL THAT BE ABLE TO INSPECT SWITCH OR FRTU}

The present invention relates to a module capable of automatically checking the switchgear and the distribution automation terminal device on-line, and in detail, checks the normal operation state of the switchgear and the distribution automation terminal device and the health check of the power supply device at a specific time. The present invention relates to a module that can be provided to the distribution automation main device by performing a preventive inspection and diagnosis on the distribution automation terminal and switch.

Electrical energy, which is widely used in various industries today, is produced and transported through a system called electric power system. In such a power system, it is important to ensure the reliability of cheap and stable power supply to the customer. The distribution system has the most difficult and complicated structure among the power systems in operation, so there are difficulties in management, and when a failure occurs in one of a large number of switchboards located in the distribution line, the user who detects the failure Receiving a report from the management personnel visits to the place of failure, there is a problem that needs to adjust the connection state of the switch directly. Accordingly, a distribution automation system (DAS) has been proposed that can remotely monitor the operation status of switchgear for distribution lines and control the switchgear, and distribution automation system based on optical communication network is widely used. It is built and used.

1 is a diagram illustrating a configuration of a distribution automation system based on an optical communication network. According to Figure 1, the distribution automation system is installed in the host device 100 and the terminal-side communication device 110, the terminal-side communication device 124 for transmitting control signals and measurement data for the host server and the user interface, the distribution system pole Power supply automation terminal 122 for monitoring the operation state of switchgear and electric wire and sending measured data to main device, and performing control command received from main device to close / open switch, mechanical device to close / open electric wire It is composed of a phosphorus switch 130.

The main device 100 and the main device side communication device 110 are mainly built in the distribution command room (operation room) of the distribution company unit, and the distribution automation terminal device 122 is installed in the distribution power system site through an optical communication line at the bottom thereof. have.

The distribution automation terminal device 122 includes a transmission function to a main device of a data measurement and distribution automation system, an event reporting function, and an opening / closing detection function and a control function of the switch 130. The data collected from the distribution automation terminal device 122 is transmitted to the main device 100 via the terminal-side communication device 124 and the main device-side communication device 110, so that the operator grasps the status of the distribution system and sends it to various events. You can flexibly respond remotely.

At this time, the distribution automation terminal device 122 should send an operation signal for closing and opening the switch 130, or a control cable for detecting the opening and closing and transmitting measurement data such as the amount of power flowing to the electric line should be connected. When the control cable is disconnected, the distribution automation terminal device 122 cannot receive the state information of the switch 130, cannot monitor the operation of the switch 130, and cannot properly respond to a power outage. There is a problem. At present, the maintenance staff visits the site to check the normal operation by using the terminal equipment preventive inspection device in order to regularly check the distribution automation terminal and switch. Temporarily disconnect the control cable connected to 130). Accordingly, during the inspection of the distribution automation terminal device 122, the operation state of the switch 130 may not be confirmed, and since the monitoring information of the switch 130 may not be transmitted to the main device 100, the operator may operate according to the operation of the switch 130. Since the power failure cannot be properly dealt with, there is a possibility that the customer power failure using electricity may last for a long time.

An object of the present invention for solving the above problems is to provide a distribution automation terminal system capable of inspecting a switchgear and a distribution automation terminal device capable of inspecting a distribution automation terminal device without removing a control cable.

It is another object of the present invention to provide a comprehensive preventive inspection and diagnosis system for checking the distribution automation terminal device and switchgear.

In addition, another object of the present invention is to provide an automatic inspection system capable of preventive inspection such as a normal operation state of a distribution automation terminal device and a switch, without a dispatcher's on-site dispatch.

The distribution automation terminal system capable of inspecting the switchgear and the distribution automation terminal device for solving the above object is a distribution system that monitors the operation state of the switchgear which cuts off the electricity of the distribution system and performs the opening / closing control command of the switchgear. Automation terminal device; A communication device for communicationly connecting the power distribution automation terminal device with a claim value; On-line automatic inspection for judging whether there is a failure of the distribution automation terminal device, transmitting the determination result of the failure to the main device, and monitoring the operation state of the switchgear while checking the distribution automation terminal device. module; And a power supply unit supplying power to the power distribution automation terminal device, the communication device, and the online automatic check module.

The present invention according to the above configuration, it is possible to check the distribution automation terminal device without removing the control cable, it is effective to detect the occurrence of the event of the distribution system and immediately respond to the occurrence of power failure even during the inspection of the distribution automation terminal device have.

That is, if the distribution automation system is constructed by systematically interfacing between the existing distribution automation terminal device and the switch control cable, the preventive inspection can be carried out scientifically and efficiently.

In addition to the distribution automation terminal device, it is possible to provide a comprehensive inspection system of the distribution automation system by providing a comprehensive diagnosis system that can check the health of the switchgear and the power supply unit. Preventive inspection of the device and switchgear, scientific and efficient work can contribute to the prevention of safety accidents, there is an effect that can reduce the manpower and maintenance costs.

In addition, there is an effect that can remotely control the distribution automation terminal device enclosure locker to reduce the vulnerability of security.

1 is a diagram illustrating a configuration of a conventional distribution automation system based on an optical communication network;
2 is a perspective view of a distribution automation terminal system according to an embodiment of the present invention;
3 is a perspective view of an online automatic check module, and
4 is a block diagram of an online automatic check module.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

2 is a perspective view of a distribution automation terminal system according to an embodiment of the present invention.

Referring to FIG. 2, the distribution automation terminal device system 200 includes a distribution automation terminal device 210, a terminal side communication device (RT, 220), and an online automatic check module 230.

The distribution automation terminal device 210 measures the data of the distribution line and transmits the measured data to the main device. The data of the distribution line measured by the distribution automation terminal device 210 includes current, voltage, fault current, power factor, and the like. It also performs status measurements on the system and equipment such as fault indicators and disconnection / phase loss and phase mismatch.

The distribution automation terminal device 210 reports the event occurrence to the main device when an event occurs, and controls the opening and closing of the switch according to the control command of the main device. Switchgear that can be controlled by the distribution automation terminal device 210 includes an automated switch.

When the accident occurs in any section of the adjacent distribution system, the distribution automation terminal device 210 transmits the experience of fault current generated when the accident occurs to the main device through the information of the fault indicator (FI). Fault indicators can be divided into instantaneous FI and permanent FI. Instantaneous FI is information that is generated unconditionally if there is any experience with fault current. Accordingly, the distribution automation terminal device 210 handles all data of the instantaneous FI and the permanent FI. The FI information is the information that distinguishes the top and bottom of the fault section. It is transmitted to the main device through the unsolicited message function of DNP3.0.

The terminal-side communication device 220 transmits information generated from the distribution automation terminal device 210 to the main device, and performs a communication function for transmitting a control command of the administrator from the main device to the distribution automation terminal device 210. . In addition, the terminal-side communication device 220 is connected to the on-line automatic check module 230 and the claim value, the remote control the on-line automatic check module 230 in the main device, remotely failure of the distribution automation terminal device 210 It can be detected.

The terminal-side communication device 220 may be a wired type through an optical cable modem or the like, or may be a wireless type through a TRS modem or the like.

On-line automatic inspection module 230 serves to check the operating state of the distribution automation terminal device 210 and the switch. One side of the online automatic check module 230 is connected to the distribution automation terminal device 210, the other side is connected to the switch via the control cable 250. When the distribution automation terminal device 210 generates a control signal for opening and closing the switch, the control signal is transmitted to the switch via a control cable 250 connected to the on-line automatic check module 230. That is, the on-line automatic inspection module 230 is a function unit for determining whether the distribution automation terminal device 210 and the switch are broken, and at the same time, performs the relaying function of the distribution automation terminal device 210 and the switching period data transmission. .

The online automatic check module 230 is connected to the main device online through the terminal-side communication device 220, it can be controlled remotely through the claim value. When the main device wants to check the distribution automation terminal device 210 through the on-line automatic inspection module 230, the assertion value is measured by the on-line automatic inspection module 230 through the external input via the external input. Generate a control signal to generate.

On-line automatic inspection module 230 generates the measurement data for the switch when receiving the control signal, and performs the inspection of the distribution automation terminal device (210). The on-line automatic inspection module 230 transmits the inspection result of the distribution automation terminal device 210 and the switch to the main device through the terminal-side communication device 220, thereby remotely checking the inspection result of the distribution automation terminal device 210. You can check it.

In particular, since the on-line automatic inspection module 230 maintains the connection state with the switch via the control cable at all times, even when the on-line automatic inspection module 230 performs the preventive inspection of the distribution automation terminal device 210, By transmitting the operation state to the main device, the main device can normally send a control command signal to the distribution automation terminal device (210).

The online automatic check module 230 may monitor the switch at all times through various sensors such as gas pressure and temperature inside the switch.

In addition, the on-line automatic inspection module 230 is connected to the enclosure keying device 260 remotely from the main device so as to prepare for the power failure generated by arbitrarily opening the lockable keying device of the distribution automation terminal system 200 and manipulating the switch. The device can be set to enable security. In this case, the locker 260 is provided with a driving unit (not shown) for driving the locker, and the drive unit is connected to the locker driving unit of the on-line automatic check module 230 by wire, and the on-line automatic check module 230 The driving unit is operated according to the control of) to control the locking / unlocking of the lock.

The online automatic check module 230 may measure the discharge voltage of the power supply 240 and detect the overdischarge of the power supply 240 to determine the health of the power supply 240. Through this, the old battery or the defective battery can be checked and the administrator can decide whether to replace the battery.

The power supply unit 240 supplies power to operate the distribution automation terminal device 220, the online automatic check module 230, and the terminal side communication device 220 in the distribution automation terminal device enclosure 200. The power supply unit 240 is a rechargeable battery that can be charged.

3 is a perspective view of an online automatic check module. According to Figure 3, the on-line automatic check module 230 is provided with a display 232, the display should be able to display the items necessary for the preventive check of the distribution automation terminal device. In addition, the online automatic check module 230 may include a key input unit 234, and the inspector may manipulate the key input unit 234 to selectively display desired information on the display 232.

One side of the on-line automatic check module 230 has a terminal that can be connected to the distribution automation terminal device 210, and the other side has a terminal that can be connected to the control cable 250. When the distribution automation terminal device 210 and the control cable 250 are connected to the on-line automatic inspection module 230, the control signal for the purpose of opening and closing the switch is the control cable 250 for the distribution automation terminal device 210. It can be transmitted to the switch via. The distribution automation terminal device 210 stores data on the open state of the switch.

In this case, the on-line automatic inspection module 230 receives data on the opening and closing state of the switch from the distribution automation terminal device 210, and compares the opening and closing state of the actual switch, the distribution automation terminal device 210 You can check whether it works properly.

In addition, after the on-line automatic inspection module 230 generates arbitrary measurement data and transmits the generated data to the distribution automation terminal device 210, the distribution automation terminal device 210 controls a control signal suitable for the measurement data. By checking whether it generates, it is possible to check whether the distribution automation terminal device 210 is operating normally.

4 is a block diagram of an online automatic check module. According to FIG. 4, the online automatic check module 230 includes a switch monitoring unit 400, a locker driving unit 410, a power monitoring unit 420, a fault detection circuit 430, a self-diagnosis circuit 440, and a central processing unit ( 450, a key input unit 460, and a display unit 470.

The switch monitoring unit 400 obtains state information on the driving environment and whether the switch is opened or closed through the control cable 250 connected to the switch. The central processing unit 450 generates and provides simulation measurement data necessary for the preventive inspection of the distribution automation terminal device 210, and monitors the operation of the switch during the preventive inspection and transmits it to the distribution automation terminal device. As a result, even when an accident occurs in the distribution system during the preventive inspection, the manager of the main device can flexibly cope with the distribution system accident by checking whether an event has occurred.

The distribution automation terminal device 210 receives a control command of the main device via the terminal-side communication device 220 and controls the switch based on the received control command. The distribution automation terminal device 210 stores the opening state information of the switch. The central processing unit 450 may determine whether the distribution automation terminal device 210 is normally operated by comparing the opening and closing state information stored in the distribution automation terminal device 210 with the actual opening or closing of the switch.

The state information on the operating environment of the switch is information such as gas pressure, temperature, humidity, etc. inside the switch measured from various sensors installed in the switch.

The central processing unit 450 determines whether the gas insulation state is maintained inside the switch based on information such as gas pressure, temperature, and humidity inside the switch measured by various sensors in the switch. For example, since the inside of the switch has to be insulated by filling SF ₆ gas, the central processing unit 450 determines whether the switch is normally operated by monitoring whether the gas pressure inside the switch falls below a predetermined value. For example, when the gas pressure in the initial switch is 0.5 MPa and the time point at which the gas insulation is released is 0.45 MPa, the central processing unit 450 determines that there is an abnormality in the switch when the gas pressure drops to 0.47 MPa or less.

The lock device driver 410 may be connected to the lock device installed in the distribution automation terminal device box 200 to control the lock / unlock of the lock device. In the main device, the user can determine the opening and closing of the locking device to remotely open the locking device, and when the inspection of the distribution automation terminal system 200 is carried out by manual operation of the distribution automation terminal device 210, it is possible to open and close the switch. Can be.

The power monitoring unit 420 measures the discharge voltage of the power supply unit 240 for supplying power to the distribution automation terminal device 210, the central processing unit 450 detects whether the power supply unit 240 is over-discharged The health of the power supply 240 is determined. Based on the abnormality of the power supply device, it is possible to review the remaining life of the power supply unit 240 and the need for replacement.

The fault detection circuit 430 may send a switch breaker signal as a simulation during the preventive inspection of a distribution automation terminal device and also detect a breakdown inside the switch.

The self-diagnosis circuit 440 is a circuit for self-check of the distribution automation terminal device 210 and the online automatic check module 230.

The central processing unit 450 may display data selected by the operator on the display unit based on a user input on the key input unit.

The key input unit 460 generates a key operation signal through an external input of the inspector, and the central processing unit 450 controls the event occurrence control of the fault detection circuit and the data display of the display unit 470 based on the key operation signal. Can be.

The display unit 470 may display a key operation screen of the inspector and output data to the screen according to a control signal of the central processing unit 450.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention, but the present invention is not limited thereto, and a person having ordinary skill in the art of the present invention has the spirit of the present invention described in the following claims. Various modifications or variations can be made without departing from the scope thereof.

100: main unit 110: main unit side communication device
120: terminal box for distribution automation 130: switchgear
200: distribution automation terminal system 210: distribution automation terminal device
220: terminal side communication device 230: online automatic inspection module
240: power supply 250: control cable
260: Locking device
400: switchgear monitoring unit 410: key device driving unit
420: power monitoring unit 430: fault detection circuit
440: self-diagnosis circuit 450: central processing unit
460: key input unit 470: display unit

Claims (6)

A distribution automation terminal device that monitors an operation state of a switch that cuts and closes electricity in a distribution system and executes an opening / closing control command of the switch;
A communication device for communicationly connecting the power distribution automation terminal device with a claim value;
On-line automatic inspection for judging whether there is a failure of the distribution automation terminal device, transmitting the determination result of the failure to the main device, and monitoring the operation state of the switchgear while checking the distribution automation terminal device. module; And
Power supply unit for supplying power to the power distribution automation terminal device, the communication device and the on-line automatic inspection module
Distribution automation terminal system capable of checking the switchgear and distribution automation terminal device comprising a.
According to claim 1, wherein the online automatic check module,
A distribution automation terminal capable of generating a simulation data necessary for the preventive inspection of the distribution automation terminal device and inspecting a switchgear and a distribution automation terminal device for determining whether the distribution automation terminal device is normally operated based on the simulation data. system.
The method of claim 2, wherein the online automatic check module
A sensor unit for measuring at least one of the gas pressure, temperature and humidity in the switch,
A distribution automation terminal system capable of inspecting a switch and a distribution automation terminal device, characterized in that determining whether the switch is in normal operation based on the gas pressure, temperature, and humidity information.
The method of claim 2, wherein the online automatic check module
A distribution automation terminal system capable of inspecting a switch and a distribution automation terminal device, characterized in that for monitoring the discharge state and the normal operation state of the power supply unit, and determining whether the power supply unit is over discharged.
The method of claim 2, wherein the online automatic check module,
A distribution automation terminal system capable of inspecting a switchgear and a distribution automation terminal device, characterized in that for controlling locking / unlocking of a lock device based on a control signal of the main device.
The method of claim 2, wherein the online automatic check module
A distribution automation terminal system capable of inspecting a switchgear and a distribution automation terminal device including a self-diagnosis circuit for checking whether there is an abnormality of the distribution automation terminal device and the online automatic inspection module.

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