KR20210063834A - System for circuit breaker simulation and analysis - Google Patents

Abstract

The present invention relates to a system for performing a simulation test and an analysis of a circuit breaker, and more specifically, to a system for performing simulation test and an analysis of a circuit breaker, which includes: a circuit breaker simulation test device unit (1000) which receives input signal information for controlling an operation of the circuit breaker from a protective relay (10), and generates output signal information for controlling the operation of the circuit breaker according to a preset logic to transmit the output signal information to the protective relay (10); and an operation signal analysis unit (2000) for analyzing a signal for checking an operation state of the circuit breaker simulation test device unit (1000). Therefore, unnecessary operation and re-closing of the circuit breaker can be suppressed, and thus a verification time can be shortened.

Description

System for circuit breaker simulation and analysis

The present invention relates to a system for performing a circuit breaker simulation test and analysis, and more particularly, by improving the method of directly operating and verifying a circuit breaker located in the conventional field during the transmission line protection relay interlock test, unnecessary operation of the circuit breaker is suppressed And it relates to a system for performing a circuit breaker simulation test and analysis that can shorten the reclosing verification time.

In addition, it relates to a system that can effectively replace the actual circuit breaker for transmission line protection relay interlocking test, and performs circuit breaker simulation test and analysis up to 765kV reclosing test.

The protection relay is a main facility that electrically monitors and protects major facilities such as power plants and substations, and is installed from a minimum of several tens to a maximum of several hundred.

To protect the equipment from electrical damage (overvoltage, overcurrent, etc.), the circuit breaker is operated to protect the equipment. In detail, it may have a function of detecting a failure in the corresponding protection section and blocking the fault current by transmitting a trip/open signal to the circuit breaker. In addition, the protective relay may be provided with a reclosing system in order to quickly recover an instantaneous fault, which accounts for most of the line faults, to perform a reclosing command function.

The function performed by the reclosing system for single-phase failure is performed through transmission line protection relay correction, but it is not common to all lines, and has different corrections according to needs such as system configuration and truce.

Accordingly, when the correction of the reclosing system of the protective relay is completed, an individual test is carried out to verify whether the correction is correct.

In the individual test for such verification, in the prior art, the operator is located at the protective switchboard and the field, and the operation by each signal while inputting the open signal (Trip/Open) and the close signal for each circuit breaker A method of checking one by one has been used.

In other words, as a method of directly operating a circuit breaker, there is an inconvenience of having to proceed with the test while checking the operation details between the relay and the field one by one.

In particular, since there are at least 80 verification tests per line in this reclosing system verification, it may take a lot of time, about a day, to perform the entire test, and since the circuit breaker must be operated directly during the test, problems caused by excessive operation of the circuit breaker is a natural result.

For example, by directly operating the circuit breaker, not only adverse effects such as maintenance and shortening of life of the circuit breaker, but also various variables such as a long waiting time occur when the hydraulic pressure or air pressure is lowered during the test.

That is, since the circuit breaker is repeatedly operated for verification of the reclosing system, not the circuit breaker self-test (the circuit breaker normal operation test), it is natural for the circuit breaker to cause unnecessary operation.

In addition, since the operation time of the circuit breaker is arbitrarily changed by the trip/open signal and the close signal, it is necessary to verify the reliability of this, but effective verification is impossible because the actual circuit breaker is operated and controlled. There are disadvantages.

In this regard, Korean Patent Registration No. 10-0473342 (“Testing device for relay for reclosing circuit breaker”) discloses a device for inspecting the state of a relay by artificially generating a circuit breaker on/off state and a fault current recognition signal. are doing

Domestic Registered Patent No. 10-0473342 (Registration Date 2005.02.16.)

The present invention has been devised to solve the problems of the prior art as described above, and improves the method of directly operating and verifying the circuit breaker located in the conventional field during the transmission line protection relay interlock test, thereby suppressing unnecessary operation of the circuit breaker and It is to provide a system for performing circuit breaker simulation test and analysis that can shorten the reclosing verification time.

The system for performing a circuit breaker simulation test and analysis according to an embodiment of the present invention receives input signal information for controlling the operation of the circuit breaker from the protection relay 10, and controls the operation of the circuit breaker according to a preset logic. A circuit breaker simulation test device unit 1000 that generates output signal information for and transmits to the protection relay 10, and an operation signal analysis unit that analyzes a signal for checking the operating state of the circuit breaker simulation test device unit 1000 ( 2000) is preferably included.

Furthermore, the circuit breaker simulation test device unit 1000 includes an input unit 100 that receives input signal information for operation control of a circuit breaker from the protection relay 10, and the input signal information received from the input unit 100. The signal processing unit 200 that generates the output signal information for controlling the operation of the circuit breaker according to a preset logic using them, and the output signal information generated by the signal processing unit 200 to the protection relay 10 It is configured to further include an output unit 300 for transmitting, and the signal processing unit 200 uses the current operating state (Trip state or Close state) information of the circuit breaker to input the input for each phase of the circuit breaker. Preferably, the output signal information is generated by calculating the contact signal and the phase loss signal according to the signal information.

Furthermore, the circuit breaker simulation test apparatus unit 1000 is configured to further include an external setting unit 400 in which the three-phase operation state of the circuit breaker is set by external manipulation, and the signal processing unit 200 is configured to include the circuit breaker By calculating the contact signal and phase-opening signal according to the input signal information for each phase of the breaker using the current operation state information of the breaker and the three-phase operation state of the breaker set by the external setting unit 400, , it is preferable to generate the output signal information.

Furthermore, it is preferable that the circuit breaker simulation test device unit 1000 further includes a display unit 500 for displaying the current three-phase operation state of the circuit breaker.

Furthermore, the operation signal analysis unit 2000 further includes a control setting unit 600 that receives signal delay time information for delaying by a predetermined time when the three-phase operation state of the circuit breaker is controlled by an external operation. The signal processing unit 200 includes the current operation state information of the circuit breaker, the three-phase operation state of the circuit breaker set by the external setting unit 400, and the signal delay time information of the control setting unit 600 It is preferable to generate the output signal information by calculating the contact signal and the phase-opening signal according to the input signal information for each phase of the circuit breaker.

Furthermore, the operation signal analysis unit 2000 receives the signal packet information of the circuit breaker simulation test device unit 1000, and separates and parses the signal packet information into an input signal and an output signal, and the control analysis unit 700 and the control analysis unit ( 700), the operation signal value of the circuit breaker, and the operation analysis unit 800 that analyzes the operation state of the circuit breaker simulation test apparatus unit 1000 by determining the state result value and the phase loss value according to the operation signal value It is preferable to further include a configuration.

The system for performing the circuit breaker simulation test and analysis of the present invention according to the above configuration improves the method of directly operating and verifying the circuit breaker located in the conventional field during the transmission line protection relay interlocking test, thereby suppressing unnecessary circuit breaker operation And there is an advantage that the verification time can be shortened by reclosing.

That is, as described above, due to the repeated operation of the circuit breaker for verification of the reclosing system, there is an advantage in that it can solve the problems of the conventional verification method that can adversely affect the maintenance and lifespan of the circuit breaker.

Through this, it can effectively replace the actual circuit breaker for the transmission line protection relay interlock test, and has the advantage of being able to perform up to 765kV reclosing test.

The system for performing the simulation test and analysis of the circuit breaker of the present invention can replace the circuit breaker located in the field during the interlock test between the protection panel and the circuit breaker, that is, for the purpose of verifying the correction value set in the protection relay. After arbitrarily generating an operation state control signal (Trip signal or Close signal), etc. through a , protective relay, it has the advantage of being able to check the operation of the circuit breaker by replacing the actual circuit breaker.

In addition, after a specific system configuration, the actual circuit breaker is replaced by a system characteristic test according to various voltage and current values generated through a 'voltage and current signal generator', and there is an advantage that it can be used for system characteristic test/verification of a power plant.

1 to 3 are diagrams showing the configuration of a system for performing a circuit breaker simulation test and analysis according to an embodiment of the present invention.

Hereinafter, a system for performing a circuit breaker simulation test and analysis of the present invention will be described in detail with reference to the accompanying drawings. The drawings introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention is not limited to the drawings presented below and may be embodied in other forms. Also, like reference numerals refer to like elements throughout.

At this time, if there is no other definition in the technical terms and scientific terms used, it has the meaning commonly understood by those of ordinary skill in the art to which this invention belongs, and in the following description and accompanying drawings, the subject matter of the present invention Descriptions of known functions and configurations that may unnecessarily obscure will be omitted.

In addition, a system refers to a set of components including devices, instruments, and means that are organized and regularly interact to perform necessary functions.

The simulation test possible range through the system for performing the circuit breaker simulation test and analysis according to an embodiment of the present invention is 154kV/345kV/765kV, and each circuit breaker has a current operating state (Trip state/Close state) for three phases. It is preferable to display it through a display means such as an LED.

At this time, the reason for setting the simulation test possible range is as follows.

Transmission of power from a power plant to a substation is called 'transmission', and high voltage power is mainly transmitted on a large scale. For this purpose, the transmission line is divided into three (765kV, 345kV, 154kV), and Korea's main transmission network is 345kV and the regional transmission network is 154kV.

In addition, in the process of transmission and distribution, controlling the voltage is called 'substation'. For example, a 765kV transmission network is transformed to 345kV or 156kV through a substation.

At this time, in the case of a disconnection test, limit the wiring range to BUS CB (circuit breaker) for 154kV power facilities, BUS CB and Center CB for 345kV power facilities, and BUS CB for 765kV power facilities It is desirable to limit the center CB and HSGS (High Speed Ground Switch) areas.

Here, the input/output terminal according to an embodiment of the present invention may have a different arrangement and configuration depending on the configuration of the circuit breaker. For example, the input terminal (Input terminal) is preferably composed of a total of 12 input channels. In the case of HSGS, as opposed to other circuit breakers, the signal of Close can be input by dividing the signal for each phase.

The input terminal of BUS CB and the input terminal of Center CB are composed of terminals that can give trip signals of A, B, and C phases, and the Close signal can be input to three phases as one signal.

As described above, the input terminal of the HSGS is preferably configured to be able to input three phases as one Trip signal and individually input the Close signal.

In addition, it is preferable that the input terminal includes a COM input terminal internally connected to (+) of the power supply.

In addition, to give an example of the output terminal (Output terminal), it is preferable to consist of a total of 15 output channels.

It is preferable that the output terminal of the BUS CB, the output terminal of the Center CB and the output terminal of the HSGS are configured with a terminal that can know the state of A, B, and C phases and a terminal for outputting phase loss and 'b' contact information.

Here, three-phase means three phases (A/B/C) for voltage and current generated in alternating current, and is a vector having a magnitude and a direction, and each magnitude has a difference of 120 degrees. This difference in magnitude is called a phase difference, and using this phase difference, the rotating magnetic field becomes the principle that enables the rotation of the motor.

In addition, as for the contact, the normally open state is called the 'a' contact state, the normally closed state is called the 'b' contact state, and in the case of the 'a' contact state, the current flow is cut off. It means ON state (Trip state), and in the case of 'b' contact state, current flows, and it is preferable to mean OFF state (Close state) as the breaker operation state.

In this way, through the system for performing the simulation test and analysis of the circuit breaker according to an embodiment of the present invention, it is possible to simulate the re-disposal system by replacing the actual (actual) circuit breaker. That is, the system for performing the circuit breaker simulation test and analysis according to an embodiment of the present invention does not stop at conducting the simulation test, but also analyzes the operating state to verify reliability thereof.

1 and 2 are diagrams showing the configuration of a circuit breaker simulation test apparatus unit 1000 of a system for performing a circuit breaker simulation test and analysis according to an embodiment of the present invention, and FIG. 3 is a diagram showing the configuration of a circuit breaker simulation test and analysis according to an embodiment of the present invention. It is a diagram showing the configuration of the overall system of the system performing the circuit breaker simulation test and analysis.

As shown in FIG. 3 , the system for performing the circuit breaker simulation test and analysis according to an embodiment of the present invention is preferably configured to include a circuit breaker simulation test device unit 1000 and an operation signal analysis unit 2000 . .

To learn more about each configuration,

As shown in FIGS. 1 and 2 , the circuit breaker simulation test apparatus unit 1000 is preferably configured to include an input unit 100 , a signal processing unit 200 and an output unit 300 , and a protection relay 10 ) receives input signal information for operation control of the circuit breaker, generates output signal information for operation control of the circuit breaker according to a preset logic, and transmits it to the protection relay 10 .

In detail, it is preferable that the input unit 100 receives input signal information for controlling the operation of the circuit breaker from the protection relay 10 .

At this time, as described above, the protection relay 10 is a facility that electrically monitors and protects major facilities such as power plants and substations, and operates a circuit breaker to protect the facilities from electrical damage (overvoltage, overcurrent, etc.) to protect the equipment.

The circuit breaker is a configuration that opens and closes the load current and blocks the fault current through the protection relay 10, and is basically in a Closed state. In general, the Close signal is a signal that allows current to flow, and the Trip (Open) signal is a signal that cuts off the current.

That is, the input unit 100 means a 'binary input signal input module' shown in FIG. 2 , and as an input terminal connected to the protection relay 10 , input signal information for controlling the operation of the circuit breaker 10 . (Whether operation as a Trip signal or Close signal, operation time value information, etc.) is received.

Preferably, the signal processing unit 200 generates output signal information for controlling the operation of the circuit breaker according to a preset logic using the input signal information received from the input unit 100 .

The signal processing unit 200 is a 'logic processing unit' shown in FIG. 2 , for example, using the input signal information received from the input unit 100 , as an example of preset logic, the BUS CB, Center CB , HSGS, 'a' and 'b', which are breaker contact signals, are formed through internal calculations according to the characteristics of each. After that, the contact signal (a, b) values are input for each of the three phases of the circuit breaker and internally calculated to form a phase-opening signal. The output signal information is generated by using the three-phase state signal (Trip state/Close state) and the phase-opening signal for each circuit breaker configured in this way.

In other words, the signal processing unit 200 calculates a contact signal and a phase open signal according to the input signal information for each phase of the circuit breaker by using the current operation state information (Trip state or Close state) of the circuit breaker, It is desirable to generate output signal information.

Preferably, the output unit 300 transmits the output signal information generated by the signal processing unit 200 to the protection relay 10 .

That is, the output unit 300 is a 'Binary Output signal output module' shown in FIG. 2 , and transmits the output signal information generated by the signal processing unit 200 through an output terminal connected to the protection relay 10 . will send

At this time, the circuit breaker simulation test apparatus according to an embodiment of the present invention is preferably configured to further include an external setting unit 400 as shown in FIG. 1 .

The external setting unit 400 is a module configuration in which the three-phase operation state of the circuit breaker is set by external (administrator, user, etc.) manipulation, and is preferably a 'setting module' shown in FIG. 2 .

In detail, the external setting unit 400 may set the operating state (Trip state or Close state) for three phases as a module configuration formed in the circuit breaker.

In this case, the signal processing unit 200 may generate the output signal information by reflecting the three-phase Trip state/Close state signal set by the external setting unit 400 .

In other words, the signal processing unit 200 uses the current operation state information of the circuit breaker and the three-phase operation state of the circuit breaker set by the external setting unit 400 to provide the input signal information for each phase of the circuit breaker. It is preferable to generate the output signal information by calculating the contact signal and the phase loss signal.

Of course, as shown in FIG. 1, the circuit breaker simulation test device according to an embodiment of the present invention is preferably configured to further include a display unit 500, and through the display unit 500, the current 3 of the circuit breaker The phase operation status is displayed.

That is, the display unit 500 is a 'display module' shown in FIG. 2 , and the current three-phase operation state (Trip state or Close state) of the circuit breaker through the external setting unit 400 and the signal processing unit 200 . It is preferable to display through a pre-equipped LED or the like.

Preferably, the operation signal analysis unit 2000 analyzes a signal for confirming the operation of the circuit breaker simulation test apparatus unit 1000 . In detail, it is preferable to perform a precise analysis according to a timeline, etc. through a signal or the like by the operation of the circuit breaker simulation test device unit 1000 .

To this end, the motion signal analysis unit 2000 is preferably configured to include a control setting unit 600 , a control analysis unit 700 , and a motion analysis unit 800 .

The control setting unit 600 receives signal delay time information (time delay time value) for delaying by a predetermined time when the three-phase operation state of the circuit breaker is controlled by an external (administrator, user, etc.) operation. it is preferable

The control setting unit 600 is a 'data setting module', and sets the signal delay time for the three-phase operation state (Trip state or Close state) of the circuit breaker.

Later, in the circuit breaker simulation test device unit 1000 , which has received the signal delay time information from the control setting unit 600 , sets the signal delay time using the signal delay time information, and then resets the set value. By transmitting to the operation signal analysis unit 2000 , it is possible to check the operation state according to whether the operation signal matches.

To this end, the signal processing unit 200 of the circuit breaker simulation test device unit 1000 includes information on the modern operation state of the circuit breaker and the three-phase operation state of the circuit breaker set by the external setting unit 400 and the control setting unit ( 600), it is preferable to generate the output signal information by calculating the contact signal and the phase-opening signal according to the input signal information for each phase of the circuit breaker.

Preferably, the control analysis unit 700 receives the signal packet information of the circuit breaker simulation test apparatus unit 1000 and separates and parses the input signal and the output signal.

In other words, as a 'data parsing module', the control analysis unit 700 performs data parsing of the signal packet information (trip/close input signal information of the breaker, output signal information) received through a separate communication module. Through this, it is preferable to separate and parse the input signal information and the output signal information.

Thereafter, the operation analysis unit 800 may parse the operation signal value (Trip signal or Close signal) of the circuit breaker through the input signal information separated and parsed by the control analysis unit 700, Through the output signal information, it is possible to parse the state result value (Trip state or Close state) of the circuit breaker and phase open (a, b) information.

Through this, it is possible to analyze the operating state of the circuit breaker simulation test device unit 1000 . That is, after parsing, as shown in FIG. 3 , the state result value (Trip state or Close state) of the circuit breaker is displayed through the 'UI monitoring module (Display)' included in the data output unit, and the analyzed signal The values according to the timeline can be expressed as a chart.

In addition, at this time, the contents of the chart may be stored and managed in accordance with the comtrade format through the 'recording module', and output and stored.

Such a system for performing a circuit breaker simulation test and analysis according to an embodiment of the present invention can be applied to configurations that can replace the on-site circuit breaker during the interlocking test between the guard panel and the circuit breaker.

Through this, for the purpose of verifying the correction value set in the protective relay, after arbitrarily generating a trip signal or the like through the protective relay, it is possible to check the operation of the circuit breaker by replacing the actual circuit breaker.

Alternatively, it can be used for system characteristic testing and verification of power plants. In detail, there is an advantage in that, after configuring a specific system, an operation can be performed by replacing the actual circuit breaker in a system characteristic test according to various voltage and current values generated through a voltage and current signal generator, etc.

As described above, in the present invention, specific matters such as specific components and the like and limited embodiment drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above one embodiment. No, various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims described below, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

10: protection relay
1000: circuit breaker simulation test device part
100: input unit 200: signal processing unit
300: output unit 400: external setting unit
500: display
2000: motion signal analysis unit
600: control setting unit 700: control analysis unit
800: motion analysis unit

Claims (6)

Circuit breaker simulation that receives input signal information for operation control of the circuit breaker from the protection relay 10, generates output signal information for operation control of the circuit breaker according to a preset logic, and transmits it to the protection relay 10 a test device unit 1000; and
an operation signal analysis unit 2000 for analyzing a signal for confirming the operation state of the circuit breaker simulation test apparatus unit 1000;
A system for performing a circuit breaker simulation test and analysis, characterized in that it comprises a.
The method of claim 1,
The circuit breaker simulation test device unit 1000 is
an input unit 100 for receiving input signal information for operation control of a circuit breaker from the protection relay 10;
a signal processing unit 200 for generating output signal information for controlling the operation of the circuit breaker according to a preset logic using the input signal information received from the input unit 100; and
an output unit 300 for transferring the output signal information generated by the signal processing unit 200 to the protection relay 10;
Consists of further including
The signal processing unit 200
Using the current operating state (Trip state or Close state) information of the circuit breaker, calculating the contact signal and the phase loss signal according to the input signal information for each phase of the circuit breaker to generate the output signal information A system that performs circuit breaker simulation tests and analysis characterized.
The method of claim 2,
The circuit breaker simulation test device unit 1000 is
an external setting unit 400 in which the three-phase operation state of the circuit breaker is set by an external operation;
Consists of further including
The signal processing unit 200
Using the current operation state information of the breaker and the three-phase operation state of the breaker set by the external setting unit 400, the contact signal and the phase open signal according to the input signal information for each phase of the breaker A system for performing a circuit breaker simulation test and analysis, characterized in that by calculating the output signal information is generated.
The method of claim 3,
The circuit breaker simulation test device unit 1000 is
a display unit 500 for displaying the current three-phase operation state of the circuit breaker;
A system for performing a circuit breaker simulation test and analysis, characterized in that it further comprises a.
The method of claim 4,
The operation signal analysis unit 2000 is
a control setting unit 600 for receiving signal delay time information for delaying the three-phase operation state of the circuit breaker by a predetermined time by an external operation;
Consists of further including
The signal processing unit 200
Using the current operating state information of the breaker, the three-phase operating state of the breaker set by the external setting unit 400, and the signal delay time information of the control setting unit 600, each phase of the breaker A system for performing a circuit breaker simulation test and analysis, characterized in that by calculating a contact signal and a phase loss signal according to the input signal information, the output signal information is generated.
The method of claim 5,
The operation signal analysis unit 2000 is
a control analysis unit 700 for receiving the signal packet information of the circuit breaker simulation test apparatus unit 1000 and parsing it into an input signal and an output signal; and
By determining the operation signal value of the circuit breaker analyzed by the control analysis unit 700, the state result value and the phase loss value according to the operation signal value, to analyze the operation state of the circuit breaker simulation test device unit 1000 motion analysis unit 800;
A system for performing a circuit breaker simulation test and analysis, characterized in that it further comprises a.

Images