KR20100080212A - Digital central control device for relay - Google Patents

Abstract

PURPOSE: A digital central control device for a relay is provided to increase the convenience of a user by driving a reset switch according to a reset signal of a reset signal output module. CONSTITUTION: An external relay input module(120) receives on/off state information of an external relay. A display unit(150) displays the on/off state of the external relay to the outside. A reset signal output module(180) outputs the reset signal about the system with the external relay. A controller(110) determines the reset signal according to the on/off state information of the external relay. An internal relay(130) is switched by the controller. The external input is transmitted to the controller through a digital input terminal and an analog input terminal. An output terminal transmits the output of the controller to the outside.

Description

DIGITAL CENTRAL CONTROL DEVICE FOR RELAY}

The present invention relates to a digital centralized control device for controlling relays for handling abnormal situations in a system.

In general, large or small accidents occur in the power system many or little. In addition to damage to property and life due to natural disasters such as lightning strikes, short circuit accidents caused by currents such as magpies, low voltages caused by overload of the system, damage to equipment, ground faults due to leakage of loads such as electric motors, etc. It is always latent.

If these accidents are left unattended, the loss of human and material resources becomes very serious. Therefore, by adopting system protection devices such as relays, the accident system can be quickly separated from other normal systems to prevent the spread of accidents to other systems. We take measures to prevent the spread of accidents in the accident system.

FIG. 1 is an exemplary diagram of a general power system. Assuming that the terminal blocks 11 of the motors M1 and M2 that are being operated by being connected to the trunk line branched from the bus bar are short-circuited, B may be caused by a short circuit current. Over-current flows in the system's tracks, which causes a disruption in C system power supply. Therefore, if left unattended, it will affect not only the accident and fire of the B system but also the facilities of the C system, resulting in damage to all equipment connected to the mother ship and damage to the system. For this reason, Figure 2 is an exemplary view showing a monitoring device of a general relay, if there is a relay in the B system in this way, the accident current in the event of the B system is quickly detected, the circuit breaker of the B circuit breaker by operating the circuit breaker driving relay Separation from the mothership prevents the spread of accidents.

As such, a circuit breaker driving relay used in a relay is not frequently operated due to its nature, so it is often forgotten. However, if there is a relay or circuit breaker that does not operate in any case for any reason, the damage can be magnified as described above. Such a conventional technique will be described with reference to the accompanying drawings.

2 is an exemplary view showing a monitoring apparatus of a conventional relay, and as shown therein, a circuit breaker 21 for selectively supplying power to a trunk branch branched from a bus and applying power to a load; An instrument transformer 22 for inducing a current flowing through the circuit breaker 21 and an applied voltage to a secondary side; An operation and control unit 23 for receiving an output of the instrument transformer 22 and outputting a control signal after a predetermined operation corresponding thereto; A breaker driving relay (RLY1) 25 for controlling the driving of the breaker 21 by receiving the amplified output signal of the operation and the controller 23; A photo coupler (PC1) 26 operated by an AC power source (AC); It consists of an analog / digital converter 27 which receives and converts an output signal according to the operation of the photo coupler (PC1) 26 and inputs a signal to the operation and control unit 23.

The state monitoring of the blocking circuit is normally performed as an electric current flows through the circuit breaker trip coil 21a through the circuit breaker trip coil 21a and is input to the operation and control unit 23. You can monitor whether it is running.

At this time, the resistance (R) is set to be lower than the current value at which the breaker trip coil 21a can operate so that the breaker trip coil 21a does not operate, and the circuit of the operation and control unit 23 and When a break or trip of the circuit breaker trip coil 21a or an abnormality of the AC power source AC occurs, the photo coupler PC1 26 is not driven so that the operation and control unit 23 does not receive a signal. do. Therefore, the calculation and control unit 23 can monitor the abnormality of the blocking circuit.

On the other hand, when overpower is applied, the detected signal of the power detector installed in the transformer 21 of the instrument inputs the calculated and controlled output current to the operation and control unit 23 to excite the coil of the circuit breaker driving relay RLY1. Let's do it.

As a result, the switch (contact A) of the circuit breaker driving relay RLY1 is shorted, and the circuit breaker trip coil 21a is operated to prevent the circuit breaker 21 from being opened and the overpower applied to the load.

An object of the present invention is to provide a digital centralized control device for a relay that can increase user convenience.

It is also an object of the present invention to provide a digital centralized control apparatus for a relay capable of operating a reset switch of a system.

In addition, the present invention is to provide a digital centralized control device for a relay that can simplify the system structure of the system.

Digital centralized control device for a relay according to an embodiment of the present invention for achieving the above object, the external relay input module for receiving the on / off state information of the external relay; A display unit for displaying an on / off state of the external relay to the outside; A reset signal output module for outputting a reset signal for a system in which the external relay is installed; And a controller configured to determine the reset signal according to on / off state information of the external relay.

In some embodiments, the digital centralized control device may further include an internal relay that is switched by the controller and controls some paths of the system.

By implementing the digital centralized control device of the present invention according to the above configuration, there is an advantage that the user convenience of the administrator managing the system can be increased.

In addition, the present invention has the advantage that can operate the reset switch of the system from the administrator side managing the system without spatial movement.

In addition, the present invention also has the advantage that the facility structure of the system can be simplified by providing an internal relay.

According to the present invention, when an external relay such as an overcurrent relay is returned, the relay operating state of the digital centralized control device and the operating state of the overcurrent relay by a command of the digital control type control device (for example, FAULT RESET KEY and FAULT RESET command) LATCH It is possible to carry out the recovery operation of external relay) simultaneously.

Hereinafter, with reference to the accompanying drawings will be described embodiments of the present invention; However, in the following description, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Digital centralized control device according to an embodiment of the present invention as shown in Figure 3, the external relay input module 120 for receiving the on / off state information of the external relay; A reset signal output module 180 for outputting a reset signal for a system in which the external relay is installed; A controller (110) for determining the reset signal according to on / off state information of the external relay; An internal relay 130 that is switched by the controller 110 and controls some paths of the system; A display unit 150 for displaying the on / off state of the external relay and the external relay to the outside; A digital input terminal 160 and an analog input terminal 170 for transmitting an external input to the controller 110; And an output terminal 190 for transmitting the output of the controller 110 to the outside.

The illustrated external relay input module 120 is for receiving information on the contact state of the external relay. Information about the contact state of the external relay may be applied as a digital signal or an analog signal. In the drawing, the information on / off is expressed, but as in the case of the three-contact relay, it may be information about the position of the contact. The external relay input module 120 is preferably provided with an insulation means such as a photo coupler in order to block the system or external electric shock from being input to the digital centralized control device.

The external relay input module 120 may be an external relay capable of receiving the state information, and may be an over current relay (OCR) or a vacuum circuit breaker (VCB).

The illustrated digital input terminal 160 and the analog input terminal 170 are for receiving an external digital or analog signal, and like the external relay input module 120, it is preferable to include an insulation means such as a photo coupler.

For example, the digital input terminal 160 may receive a signal from an element that outputs an external digital signal, and the analog input terminal 170 may receive a sensing signal of a sensor existing outside.

The illustrated reset signal output module 180 is an output interface for outputting a reset signal for resetting the system when an abnormal situation generated in the system is completed. Although the reset signal output module 180 may simply implement to output a signal of the controller 110, in consideration of the importance of the reset signal, the reset signal output module 180 may be implemented as a digital signal output interface having means for preventing malfunction due to noise. It is preferable. In addition, the reset signal output module 180 also preferably includes an insulating means such as a photo coupler.

Typically the system is equipped with a reset switch for manual operation. In addition, in order to remotely operate the reset switch, a driving module for driving the reset switch may be provided at a position where the reset switch exists.

When the reset signal output module 180 according to the proposal of the present invention is provided, the reset switch may be driven by operating the driving module according to the reset signal of the reset signal output module 180. Of course, such an implementation can increase user convenience.

The reset signal may be implemented to be automatically generated by the controller 110 according to the execution result of the abnormal situation processing algorithm, and the user who confirms the completion of the abnormal situation processing by the user operating means (eg, a key) for the digital centralized control device. Buttons or switches) can be created to manipulate them.

As shown in Fig. 4, the reset signal is preferably held for a predetermined time (longer than the duration of a general digital signal) from the time of its occurrence. The set time may preferably be one of 200 msec to 1000 msec (500 msec in the drawing). This is to increase the resistance to noise of the reset signal.

The internal relay 130 is for providing relay operation to a grid element that is relatively close to the digital centralized control device. Accordingly, there is an advantage that the necessary system control can be performed by the operation of the internal relay 130 without having to provide a separate relay for a relatively close distance.

The display unit 150 displays status information of the external relay and / or the internal relay to the user. The state information may be a position of a contact point of each relay. For example, when the state information of the relay is on / off information, the display unit 150 may include a light emitting diode that is turned on when the relay is on and turned off when the relay is on. Can be.

Alternatively, in the case of a structure in which one common line RO_10 and one of two lines RO_11 and RO_12 are selectively connected by a relay operation, as in the case of the illustrated internal relay, the display unit 150 is the selective unit. Two light emitting diodes displaying two lines RO_11 and RO_12 connected to each other may be provided. Each of the light emitting diodes may be implemented to be turned on when a representative line is connected to a common line.

The illustrated output terminal 190 may be an output interface for transmitting the output of the controller 110 to the outside. The output terminal 190 may have the same structure as the reset signal output terminal 180, but in view of the importance and cost of the signal, the output terminal 190 may be implemented by a cheaper means. In order to suppress corruption of the output signal due to noise, the output terminal 190 is preferably implemented as a digital signal output interface.

In addition, as an output signal of the output terminal 190, an external relay or a breaker (VCB or ACB, etc.) connected to the relay input module 120 may be ON / OFF controlled. In this case, the state changed by the output signal of the output terminal 190 may be displayed by the display unit.

The illustrated control unit 110 performs appropriate processing for abnormal situations in the system. To this end, the controller 110 may include a processor that performs digital signal processing, which executes an algorithm for system control. For flexible change to various systems, it is desirable to implement a programmable processor.

The embodiments of the present invention described above are not limited to the above-described configuration and method, but the embodiments may be configured by selectively combining all or part of the embodiments so that various modifications may be made. It may be.

1 is a structural diagram of a general power system.

2 is a structural diagram showing a monitoring device of a conventional relay;

Figure 3 is a block diagram showing a digital centralized control device for a relay according to an embodiment of the present invention.

4 is a waveform diagram illustrating an embodiment of a reset signal output from the digital centralized control device of FIG. 3.

Claims (5)

An external relay input module for receiving on / off state information of the external relay; A display unit for displaying an on / off state of the external relay to the outside; A reset signal output module for outputting a reset signal for a system in which the external relay is installed; And A controller for determining the reset signal according to on / off state information of the external relay Digital centralized control device comprising a. The method of claim 1, An internal relay that is switched by the control unit and controls some paths of the system Digital centralized control device further comprising. The method of claim 2, And the display unit displays an on / off state of the internal relay. The method of claim 1, An input terminal for transmitting an external input to the controller; And Digital centralized control device further comprising an output stage for transmitting the output of the control unit to the outside. The method of claim 1, The reset signal is, Digital centralized control device having a duration of 200msec ~ 1000msec.

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