KR20160020046A - Apparatus and method for condition monitoring of over current relay - Google Patents

Abstract

The present invention relates to an overcurrent relay status monitoring device and a method thereof. The overcurrent relay status monitoring device comprises a communication unit and a control unit. The communication unit communicates with at least one overcurrent relay. The control unit transmits a status request signal to one or more overcurrent relays through the communication unit; receives a response signal of an overcurrent relay having responded to the status request signal; and determines whether the overcurrent relays are failed depending on the received response signal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overcurrent relay monitoring apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overcurrent relay state monitoring apparatus and method, and more particularly, to an overcurrent relay state monitoring apparatus and method that can remotely monitor an overcurrent relay function abnormality.

Electric power systems such as electric power generation facilities that generate electricity, transmission and distribution lines that transport and distribute generated electric power, substations to change the characteristics of voltage or current of electric power produced by power plants, etc., are equipped with facilities protection devices for safe system operation Is required.

Protective Relay, a kind of equipment for protecting facilities, monitors components of power system such as generators, transformers, buses, and lines and separates faulty parts from the system when there is a fault or system operation failure Thereby preventing the power supply from being interrupted and minimizing damage to the equipment.

Over Current Relay is a kind of protective relay described above, and it is a device for protecting equipment that operates when the load current exceeds a set value. In general, an overcurrent relay is connected to a current transformer and operates when an overcurrent occurs by detecting the current flowing through the current transformer. When the overcurrent relay is operated, one or more contacts are driven by an action called trip operation, and the breaker is shut off.

However, the conventional overcurrent relay has its own self-diagnosis function for operational reliability. However, when the overcurrent relay has lost the entire function including the self-diagnosis function, the facility protection function through the overcurrent relay is lost until the inspection of the visual inspection There is a problem that ripple failure to other facilities may occur.

On the other hand, the background art of the present invention is disclosed in Korean Patent Publication No. 10-2014-0013719 (Feb.

An object of the present invention is to provide an overcurrent relay state monitoring apparatus and method capable of instantly detecting an abnormality of an overcurrent relay.

An overcurrent relay state monitoring apparatus according to the present invention includes: a communication unit for performing communication with at least one overcurrent relay; And a controller for transmitting a status request signal to the at least one overcurrent relay through the communication unit, receiving a response signal of the overcurrent relay responding to the status request signal through the communication unit, And a controller for determining whether the overcurrent relay has failed or not.

In the present invention, the status request signal includes address information of an overcurrent relay requesting a response from the at least one overcurrent relay, and the controller sequentially changes the address information to transmit the status request signal .

In the present invention, the controller determines whether the response signal is normal. If it is determined that the response signal is not normal, the controller increments the fault count by 1. If the fault count reaches a preset reference value, It is determined that one or more overcurrent relays are faulty.

In the present invention, the communication method of the communication unit is an RS485 serial method. When the response signal is normal, the control unit determines that the response signal is not normal when the response signal is high do.

The overcurrent relay monitoring apparatus further includes an alarm unit for alerting a fault of the overcurrent relay. When the at least one overcurrent relay is judged to be out of order, the control unit informs the user through the alarm unit that the at least one And alarms the failure of the overcurrent relay.

The overcurrent relay state monitoring apparatus according to the present invention further includes a SCADA connection unit for transmitting a fault signal to the SCADA, and when the at least one overcurrent relay is judged to be out of order, Signal is transmitted.

A method of monitoring an overcurrent relay state according to the present invention includes: a control unit transmitting a status request signal to at least one overcurrent relay through a communication unit; The control unit receiving a response signal of the overcurrent relay responding to the status request signal through the communication unit; And the controller determines whether the at least one overcurrent relay is faulty based on the received response signal.

In the present invention, the status request signal includes address information of an overcurrent relay requesting a response among the at least one overcurrent relay, and in the step of transmitting the status request signal, the controller sequentially changes the address information, And transmits a status request signal.

In the present invention, the step of determining the failure may include: determining whether the response signal is normal; Increasing the fault count by 1 if the response signal is not normal; And determining that the at least one overcurrent relay is faulty if the fault count reaches a preset reference value.

In the present invention, in the step of transmitting the status request signal and the step of receiving the response signal, the communication method of the communication unit is an RS485 serial method, and in the step of determining whether the response signal is normal, The determination unit determines that the response signal is not normal.

The overcurrent relay state monitoring method according to the present invention further comprises the step of, when the at least one overcurrent relay is judged to be in failure, the control unit warning the user of the failure of the at least one overcurrent relay through the alarm unit .

The overcurrent relay state monitoring method according to the present invention is characterized in that the control unit transmits a fault signal to the SCADA through the SCADA connection unit when it is determined that the at least one overcurrent relay is faulty.

The overcurrent relay state monitoring apparatus and method according to the present invention have an effect of instantaneously detecting an abnormality of the overcurrent relay by continuously monitoring the failure of the overcurrent relay through transmission of a status request signal.

FIG. 1 is a diagram illustrating a schematic configuration of an overcurrent relay monitoring system using an overcurrent relay state monitoring apparatus according to an embodiment of the present invention. Referring to FIG.
2 is a block diagram showing the configuration of an overcurrent relay state monitoring apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating an overcurrent relay state monitoring method according to an embodiment of the present invention.

Hereinafter, an embodiment of an overcurrent relay state monitoring apparatus and method according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a diagram illustrating a schematic configuration of an overcurrent relay monitoring system using an overcurrent relay state monitoring apparatus according to an embodiment of the present invention. Referring to FIG. 1, the overcurrent relay state monitoring apparatus 100 according to the present embodiment is connected to the overcurrent relays 120, 121, 122 to monitor the states of the overcurrent relays 120, 121, 122, While it is connected to Supervisory Control And Data Acquisition (SCADA) and can transmit a fault signal of the overcurrent relays 120, 121, 122 to the SCADA. SCADA is a type of industrial control system that collects status information of remote devices by using analog or digital communication and analyzes the collected status information by central control system to monitor and control remote devices System, and generally refers to a system that centrally monitors and controls various types of remote facilities such as power generation facilities, substation, transmission and distribution systems, as well as petrochemical plants, steel process facilities, and factory automation facilities .

2 is a block diagram showing the configuration of an overcurrent relay state monitoring apparatus according to an embodiment of the present invention. 2, the overcurrent relay state monitoring apparatus according to the present embodiment includes a control unit 200, a communication unit 210, an alarm unit 220, and a SCADA connection unit 230.

The communication unit 210 performs communication with at least one overcurrent relay under the control of the control unit 200. For example, the communication unit 210 can perform communication between the control unit 200 and the overcurrent relay through an RS485 serial communication scheme. In this case, information transfer between the controller 200 and the overcurrent relay may be performed in a half-duplex manner.

The control unit 200 transmits a status request signal to at least one overcurrent relay through the communication unit 210 and receives a response signal of the overcurrent relay responding to the status request signal through the communication unit 210. Here, the status request signal is a signal for requesting confirmation of whether or not the individual function of the overcurrent relay is normal, and may request at least one of DC Power Fail, Memory Fail, Setting Fail, A / D Converter Fail and DI / have.

For example, when the communication unit 210 is in the RS485 serial mode, the status request signal transmitted from the control unit 200 through the communication unit 210 is transmitted to all the overcurrent relays connected to the communication unit 210. In this case, however, not all overcurrent relays transmit a response signal but only a specific overcurrent relay responding to the status request signal transmits a response signal. For this, the controller 200 may include the address information of the overcurrent relay, which is required to respond to the status request signal, so that the overcurrent relay corresponding to the address information can transmit a response signal. At this time, the response signal transmitted by the overcurrent relay may include the ID information of the overcurrent relay. Here, the address information and the ID information are identification information for identifying each overcurrent relay.

Also, the controller 200 sequentially changes the address information included in the status request signal to a value corresponding to the next overcurrent relay, transmits a status request signal, and sequentially transmits all the statuses of the overcurrent relays connected to the communication unit 210 You can also check.

On the other hand, the control unit 200 can determine whether the overcurrent relay is faulty or not based on the response signal received through the communication unit 210. For example, the controller 200 determines whether the response signal is normal. If the answer signal is not normal, the controller 200 increments the fault count by 1, and determines that the overcurrent relay is faulty when the fault count reaches a preset reference value .

For example, when the communication unit 210 is of the RS485 serial type, the controller 200 determines that the response signal is normal when the response signal is low and when the response signal is high It can be determined that the response signal is not normal. That is, when the communication unit 210 uses the RS485 serial method, a plurality of overcurrent relays may be connected to one connection terminal of the communication unit 210. In this case, even if one overcurrent relay outputs a high signal, the controller 200 receives a high response signal. That is, if the high-level signal is regarded as a steady state of the overcurrent relay function, the controller 200 determines that the response signal is normal even if the overcurrent relay not responding outputs a high signal due to an error . Accordingly, the controller 200 determines that the response signal is normal when the response signal is logic 0 (low), and determines that the response signal is not normal when the response signal is logic 1 (high).

Also, since the control unit 200 may determine that the response signal of the overcurrent relay is not normal due to a temporary error or the like, the non-normal response signal is counted, and a reference value is set to determine whether the failure is a failure. Here, the reference value is basically set in advance, and may be set to various values according to the design of the overcurrent relay state monitoring apparatus according to the present embodiment.

The alarm unit 220 alerts the user of the failure of the overcurrent relay under the control of the control unit 200. [ For example, the alarm unit 220 may include an LED, and the controller 200 may display a green LED when the overcurrent relay is in a normal state, display a red LED when the overcurrent relay is determined to be faulty, Can be alarmed.

The SCADA connection unit 230 transmits a failure signal of the overcurrent relay to the SCADA under the control of the control unit 200. That is, if it is determined that the overcurrent relay is faulty, the control unit 200 can transmit a fault signal to the SCADA through the SCADA connection unit 230. Here, the fault signal includes information that the overcurrent relay is determined to be faulty, and may also include ID information of the overcurrent relay judged as a fault. The SCADA connection unit 230 can transmit a failure signal to the SCADA through a RTU (Remote Terminal Unit) method, a PLC (Programmable Logic Controller) method, or the like. However, the present embodiment is not limited to this, and various schemes in which the SCADA connection unit 230 can transmit information to the SCADA may be employed.

FIG. 3 is a flowchart for explaining an overcurrent relay state monitoring method according to an embodiment of the present invention. Referring to FIG. 3, an overcurrent relay state monitoring method according to the present embodiment will now be described.

First, the control unit 200 transmits a status request signal to at least one overcurrent relay through the communication unit 210 (S300). Here, the status request signal is a signal for requesting confirmation of whether or not the individual function of the overcurrent relay is normal, and may request at least one of DC Power Fail, Memory Fail, Setting Fail, A / D Converter Fail and DI / have.

Then, the control unit 200 receives the response signal of the overcurrent relay responding to the status request signal transmitted in the step S300 through the communication unit 210 and determines whether or not the response signal is normal (S310). For example, when the communication unit 210 is of the RS485 serial type, the control unit 200 determines that the response signal is normal when the response signal is low and when the response signal is high It can be determined that the response signal is not normal.

If it is determined in step S310 that the response signal is normal, the controller 200 changes the address information of the status request signal to the next overcurrent relay in step S320. Here, the address information means identification information that can identify each overcurrent relay.

Then, the controller 200 determines whether all overcurrent relays have been requested (S360). For example, the controller 200 determines whether there is an overcurrent relay corresponding to the changed address information in step S320. If the overcurrent relay corresponding to the changed address information does not exist, the controller 200 determines the state of all the overcurrent relays It can be determined that the request is made.

If it is determined in step S360 that all the overcurrent relays are requested, the overcurrent relay state monitoring method according to the present embodiment ends. On the other hand, if it is determined in step S360 that all the overcurrent relays are not requested, the controller 200 returns to step S300 and repeats the process of transmitting the status request signal. Accordingly, the controller 200 can sequentially check the states of all the overcurrent relays connected to the communication unit 210.

On the other hand, if it is determined in step S310 that the response signal is not normal, the controller 200 increments the failure count by one (S330).

Then, the controller 200 determines whether the failure count has reached a preset reference value (S340). That is, it can be determined that the response signal of the overcurrent relay is not normal due to a temporary error or the like. Therefore, the control unit 200 counts a response signal that is not normal, and determines a failure by placing a reference value.

If it is determined in step S340 that the fault count has reached the reference value, the controller 200 determines that the overcurrent relay is faulty (S350). On the other hand, if it is determined in step S340 that the failure count has not reached the reference value, the controller 200 proceeds to step S320 to request the status of the next overcurrent relay.

Meanwhile, the overcurrent relay state monitoring method according to the present embodiment can be repeated from the beginning after all processes are completed, so that it is possible to continuously monitor the abnormality of the overcurrent relay.

As described above, the overcurrent relay state monitoring apparatus and method according to the embodiment of the present invention detect the abnormal state of the overcurrent relay instantaneously, thereby preventing preemptive power failure, and stably operating the electric power facility.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

100: Overcurrent relay status monitoring device
110: SCADA
120: Overcurrent Relay
121: Overcurrent Relay
122: Overcurrent Relay
200:
210:
220:
230: SCADA connection

Claims (12)

A communication unit for performing communication with at least one overcurrent relay; And
And a controller for transmitting a status request signal to the at least one overcurrent relay through the communication unit, receiving a response signal of the overcurrent relay responding to the status request signal through the communication unit, And a controller for determining whether the overcurrent relay is faulty.
The method according to claim 1,
Wherein the status request signal includes address information of an overcurrent relay whose response is requested among the at least one overcurrent relay,
Wherein the control unit sequentially changes the address information to transmit the status request signal.
The method of claim 1, wherein
Wherein the control unit determines whether the response signal is normal, and increases the failure count by one if the response signal is not normal. When the failure count reaches a preset reference value, And determines that the relay is faulty.
The method of claim 3, wherein
The communication method of the communication unit is an RS485 serial method,
Wherein the control unit determines that the response signal is not normal when the response signal is high when the response signal is normal.
The method according to claim 1,
Further comprising an alarm unit for alarming a failure of the overcurrent relay,
Wherein the controller alerts the user of the failure of the at least one overcurrent relay through the alarm unit when it is determined that the at least one overcurrent relay is faulty.
The method according to claim 1,
Further comprising a SCADA connection for transmitting a fault signal to the SCADA,
Wherein the controller transmits a fault signal to the SCADA through the SCADA connection unit when it is determined that the at least one overcurrent relay is faulty.
The control unit transmitting a status request signal to at least one overcurrent relay through a communication unit;
The control unit receiving a response signal of the overcurrent relay responding to the status request signal through the communication unit; And
And the controller determines whether the at least one overcurrent relay is faulty based on the received response signal.
8. The method of claim 7,
Wherein the status request signal includes address information of an overcurrent relay whose response is requested among the at least one overcurrent relay,
Wherein the controller transmits the status request signal by sequentially changing the address information in the step of transmitting the status request signal.
The method of claim 7, wherein
The method of claim 1,
Determining whether the response signal is normal;
Increasing the fault count by 1 if the response signal is not normal; And
And determining that the at least one overcurrent relay is faulty if the fault count reaches a preset reference value.
The method of claim 9, wherein
In the step of transmitting the status request signal and the step of receiving the response signal, the communication method of the communication unit is an RS485 serial method,
Wherein the control unit determines that the response signal is not normal when the response signal is high in the step of determining whether the response signal is normal.
8. The method of claim 7,
Further comprising the step of: if the at least one overcurrent relay is determined to be out of order, the controller alerts the user of the failure of the at least one overcurrent relay through the alarm unit.
8. The method of claim 7,
Further comprising the step of the controller sending a fault signal to the SCADA through the SCADA interface if it is determined that the at least one overcurrent relay is faulty.

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