KR101559342B1 - System for preventing trouble of substation device) - Google Patents

Abstract

The present invention provides a system for preventing the trouble of a substation device. The system for preventing the trouble of a substation device includes: a plurality of substation devices which have unit parts with independent functions; and a diagnosis unit which detects a normal or abnormal state of each unit part of the substation devices, and sequentially performs the independent functions through normal unit parts which have the same function performed in another substation device, when there are abnormal unit parts.

Description

{SYSTEM FOR PREVENTING TROUBLE OF SUBSTATION DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a trouble prevention system for a power substation, and more particularly, to a problem prevention system for a substation facility that can prevent trouble by monitoring an abnormal operation state of a plurality of substations, .

Generally, as shown in FIG. 1, in a conventional substation monitoring system, surveillance data is collected in each remote test unit (RTU) 20 by using a power system line in the substation 10 And transmits the data collected through the master panel unit 30 to the display panel unit 40 and the host unit 50 to display the data to the user.

In the conventional substation surveillance system, there is a problem that the power system line must be installed in the installed facilities when the surveillance point for increasing the facility is increased.

Conventional substation surveillance system has to stop the operation of the equipment due to the construction work during the construction of the system, and labor, time, and cost are incurred in the change of the monitoring space and facilities.

In the conventional substation surveillance system, there is a concern that the communication infrastructure is formed as a wire, and thus, there is a risk of line breakage in the inside or outside construction, and the initial cost is high at the time of installation and construction of the system.

A prior art document related to the present invention is Korea Registered Patent Registration No. 10-1426525 (2014.08.04).

It is an object of the present invention to provide a trouble prevention system for a substation facility that can monitor an abnormal operation state of a plurality of substation facilities and solve an abnormal state without stopping the facility to prevent troubles.

In a preferred embodiment, the present invention provides a trouble prevention system for a substation facility.

The trouble prevention system of the power substation includes a plurality of substations having unit parts having independent functions; And monitoring the normal or abnormal state of each of the unit parts of the plurality of substation facilities and continuously performing the independent function through the normal state unit parts having the same function in the other substation facility And a diagnosis unit for diagnosing an abnormality.

The diagnosis unit includes a plurality of sensors for monitoring a normal or anomalous state of the unit parts of each of the plurality of substation equipments and a plurality of sensors for receiving monitoring signals from the plurality of sensors and extracting the unit parts, And a monitoring control unit for searching a plurality of substation units having the same function as the extracted unit parts and forming a steady state from the plurality of substation facilities and controlling the searched unit parts to perform the function of the unit parts in which the abnormal state is generated .

Each of the plurality of substation facilities includes a driving unit.

The driving unit drives the unit parts included in the corresponding substation facility.

Wherein the monitoring control unit electrically connects the driver having the searched unit parts and the driving unit having the unit parts in which the abnormal state is generated and outputs the searched unit parts as a function of the unit parts in which the abnormal state is generated It is preferable to perform control so as to perform.

Wherein the monitoring control unit comprises: a plurality of timers for measuring driving time of the unit parts of each of the plurality of substation facilities; a storage unit for storing driving time of the unit parts of each of the plurality of substation facilities measured; A predetermined correction time is subtracted from a point in time at which the abnormal state is generated in the drive time of the generated unit component to determine the correction point as the correction point and the corresponding drive is controlled to stop the drive of the unit component in which the abnormal state has occurred, And a controller that controls the unit component to be driven at the correction time point instead of the unit component in which the abnormal state is generated.

The unit parts of each of the plurality of substation facilities have a total driving ability value that is three times the driving ability value used for achieving a steady state.

The controller controls the drive capability value used for achieving a steady state to be driven so as to be doubled among the total drive capability values of the searched unit parts.

Wherein the controller compares the driving capability values used for achieving a steady state of each of the plurality of searched unit parts when the searched unit parts comprise a plurality of units, It is preferable to control so as to be driven instead of the generated unit parts.

The present invention relates to a system and method for searching for a unit component having the same function as a corresponding unit component from another substation when a unit component forming an abnormal state is generated in a plurality of substation facilities, So that it is possible to immediately diagnose and solve the ecology without stopping the facility.

Further, the present invention is characterized in that a correction time is subtracted from a point of time at which an abnormal state occurs in a unit component forming an abnormal state, and the correction time is determined as a driving point, and the point of connection with another unit component, The driving data at the time of occurrence of the abnormal state can be excluded by transmitting the driving data so that the abnormal state can be reliably solved easily.

Further, in the present invention, when a plurality of unit parts driven in place of the abnormal state unit parts are formed, the driving ability values therebetween are relatively compared, so that the unit parts having a relatively large margin in the total driving capability value are used, It is possible to prevent the load in the substation system from being increased in advance.

1 is a diagram showing a conventional substation monitoring system.
FIG. 2 is a view showing a trouble prevention system of a power plant according to the present invention. FIG.
3 is a diagram showing a driving state of a trouble prevention system of a power plant according to the present invention.
4 is a diagram showing the determination of the driving time point according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a trouble prevention system of a power plant according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a view showing a trouble prevention system of a power plant according to the present invention, and FIG. 3 is a diagram showing a driving state of a trouble prevention system of a power plant according to the present invention.

Referring to FIGS. 2 and 3, the trouble prevention system of the present invention includes: a plurality of substation apparatuses 100 having unit parts 10 having independent functions; And monitoring the normal or abnormal state of each of the unit parts (10) of the plurality of substation equipment (100), and controlling the unit parts in which the abnormal state is generated to be in a steady state unit And a diagnostic unit 200 for continuously performing an independent function through the component 100. [

The diagnosis unit 200 includes a plurality of sensors 210 for monitoring a normal or abnormal state of the unit parts 10 of each of the plurality of substation apparatuses 100, The unit parts 10 having the same functions as those of the extracted unit parts 10 and forming a steady state are connected to the plurality of substation units 100, And a monitoring control unit (220) for controlling the searched unit component (10) to perform the function of the unit component (10) in which the abnormal state is generated.

Each of the plurality of substation apparatuses 100 includes a driving unit 230.

The driving unit 230 drives the unit parts 10 included in the corresponding substation.

The monitoring control unit 220 electrically connects the driver 230 having the searched unit component 100 and the driver 230 having the unitary component 10 in which the abnormal state is generated, And controls the unit parts 10 to perform the functions of the unit parts 10 in which the abnormal state is generated.

3 and 4, the monitoring control unit 220 includes a plurality of timers 221 for measuring the driving time of the unit parts 10 of each of the plurality of substation units 100, A storage unit 222 for storing the driving time of the unit parts 10 of each of the plurality of substation units 100 and a storage unit 222 for storing the driving time of the unit parts 10, And the driving unit 230 is controlled so as to stop the driving of the unit component in which the abnormal state is generated, and the retrieved unit component 10 is moved from the correction point to the correction point And a controller (223) for controlling so as to be driven instead of the unit component (10) in which the abnormal state is generated.

The unit parts 10 of each of the plurality of substation apparatuses 100 have a total drive capability value that is three times the drive capability value used for achieving a steady state.

The controller 223 controls the drive capability value used for achieving the steady state to be driven so as to be increased by twice the total drive capability value of the searched unit component 10. [

The controller 223 compares the driving ability values used for achieving a normal state of each of the plurality of searched unit parts 10 when the searched unit parts 10 comprise a plurality of sorts, So as to be driven in place of the unit component 10 in which the abnormal state is generated.

Referring to FIG. 2, each of the sensors senses a normal or abnormal state of the unit parts of each substation facility and transmits the sensed state to the controller.

For example, when an abnormal condition occurs in a unit component of a1 in the E1 substation facility, the controller searches for unit parts that have the same function as a1 unit component of other substation equipments and form a steady state.

Then, when the number of the searched unit parts 10 is large, the driving ability values used for achieving a steady state of each of the plurality of searched unit parts 10 are compared, (10) to be driven instead of the unit component (10) in which the abnormal state is generated.

Here, the controller controls the b1 unit component of the E2 power plant to be driven in place of the a1 unit component.

Also, the a1 unit component maintains the drive capability value in the E2 substation facility, and drives the a1 unit component of the E1 substation in place of the remaining drive capability value.

At this time, the drivers D1 and D2 between the E1 and E2 substation equipments are turned on and electrically connected.

According to the above-described structure and operation, when a unit component forming an abnormal state is generated in a plurality of substation facilities, the present invention searches for a unit component having the same function as the corresponding unit component from another substation facility, By performing the functions of the unit parts that make up the abnormal state through the parts, it is possible to immediately diagnose and solve the abnormal ecology without stopping the facility.

Further, the present invention is characterized in that a correction time is subtracted from a point of time at which an abnormal state occurs in a unit component forming an abnormal state, and the correction time is determined as a driving point, and the point of connection with another unit component, The driving data at the time of occurrence of the abnormal state can be excluded by transmitting the driving data so that the abnormal state can be reliably and reliably solved easily.

Further, in the present invention, when a plurality of unit parts driven in place of the abnormal state unit parts are formed, the driving ability values therebetween are relatively compared, so that the unit parts having a relatively large margin in the total driving capability value are used, The load on the substation system can be prevented from increasing in advance.

Although the present invention has been described in connection with the specific embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications may be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: Unit parts
100: Substation
200: diagnostic unit
210: Sensor
220:
230:

Claims (4)

A plurality of substation facilities having unit parts having independent functions; And
Monitoring the normal or abnormal state of each of the unit parts of the plurality of substation equipments and continuously performing the independent function through the steady state unit parts having the same function in the other substation equipment The diagnostic unit comprising:
The diagnostic unit comprises:
A plurality of sensors for monitoring a normal or abnormal state of the unit parts of each of the plurality of substation facilities;
Receiving a monitoring signal from the plurality of sensors, extracting the unit parts in which an abnormal state occurs,
Searching the plurality of substation units for unit parts having the same function as the extracted unit parts and forming a steady state,
And a monitoring control unit for controlling the searched unit parts to perform a function of the unit parts in which the abnormal state is generated,
Wherein each of the plurality of substation facilities includes a driving unit,
Wherein the driving unit drives the unit parts included in the corresponding substation,
The monitoring control unit,
A driving unit having the unit component searched and a driving unit having a unit component in which the abnormal condition is generated are electrically connected,
Controls the searched unit parts to perform the function of the unit parts in which the abnormal state is generated,
The monitoring control unit,
A plurality of timers for measuring driving time of the unit parts of each of the plurality of substation facilities,
A storage unit for storing drive times of the unit parts of each of the plurality of substation facilities measured;
A correction time is determined as a correction time point by subtracting a predetermined correction time from a point in time at which an abnormal state occurs at a driving time of the unit component in which the abnormal state is generated,
Controls the driving unit to stop driving the unit parts in which the abnormal state has occurred,
And a controller for controlling the searched unit component to be driven at the correction time point instead of the unit component in which the abnormal state is generated.
delete delete The method according to claim 1,
Wherein the unit parts of each of the plurality of substation facilities have a total driving ability value that is three times the driving ability value used for achieving a steady state,
The controller comprising:
The control unit controls the drive capability value used for achieving a steady state to be driven so as to be doubled among the total drive capability values of the searched unit parts,
When a plurality of the above-mentioned unit parts are searched,
Comparing the driving ability values used for achieving a steady state of each of the plurality of searched unit parts,
And controls the unit component having the relatively low driving capability value to be driven in place of the unit component in which the abnormal condition is generated.

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