KR101801611B1 - Information technology system of adequacy verification for current transformer ratio and error bound of metering out fit - Google Patents

Abstract

An information technology system for verifying adequacy of current transformer ratio and error bound in an extra-high voltage metering out fit according to the present invention comprises: a service entrance switch of extra-high power reception equipment; a metering out fit (MOF) in which a metering power transformer (PT) and a metering current transformer (CT) are embedded; a watt hour meter for metering the used amount at a secondary side of the MOF and providing secondary side meter data (MD) to an extra-high remote metering system; a circuit breaker (CB) for breaking power when accidents occur; a power transformer load current unit for providing operation information of a power transformer and a distribution board; a primary side power reception equipment measurement information collection device for collecting information on voltage and current of primary side power reception equipment and transmitting the collected data to a system operation system; the system operation system for receiving and storing the information on the voltage and the current, which is big data of measurement information of the primary side power reception equipment; the extra-high remote metering system for storing information on voltage, current, the amount of effective electric power and received power, which is information of the MD of the secondary side produced by the watt hour meter; a software for collecting the MD of the secondary side, produced by the watt hour meter, from the extra-high remote metering system, performing analysis, and converting the MD of the secondary side into the MD of the primary side; a primary side measurement information collection software for collecting primary side power reception equipment measurement information of a customer from the system operation system and performing analysis; and an adequacy verification software for verifying the adequacy of current transformer ratio application and error bound of the extra-high power MOF. The present invention can prevent ex post civil complaints related to electricity charges to enhance reliability of a power business by verifying the adequacy using the big data in the information technology (IT) system.

Description

[0001] The present invention relates to a transformer for a high voltage transformer (MOF) and an error range verification method.

The present invention relates to an information technology system for verifying the ratio of a current transformer used in a special high-voltage meter (MOF) and error range adequacy verification system. In the special high voltage power supply customer, a special high voltage meter transformer (MOF) (MOF) is composed of a potentiometer transforming a special high voltage to a low voltage so that the watt-hour meter can measure the amount of usage in the secondary side, and a current transformer for transforming a high current into a low current ).

In this case, the electricity rate is calculated by multiplying the electricity usage measured by the watt hour meter by the CT ratio and the PT ratio. In this process, the transformation ratio is constant, while the conversion ratio varies according to the specification. In addition, the electricity rate is too low due to the deterioration of the function of the current transformer due to aging or partial failure of the current transformer. Therefore, the rate of change and the error range are the key elements of the fair trade. .

In order to find such unfair cases, electric power companies conduct periodic tests on site, and the method of implementation is to visit customers to verify the current ratio of the current transformers in the field to verify the rate of change, It is a labor-intensive, field-based method that consumes enormous budgets.

The present invention was conceived to convert the application rate of the MOF and the accuracy of the error range to a software method for comparing and analyzing the big data of the watt hour meter and the receiving equipment in the existing field measurement hardware method, In detail, since the value obtained by converting the meter data (MD) of the secondary side produced by the special high-pressure electronic watt-hour meter into the primary side and the measurement information value of the primary side receiving apparatus should be in accordance with each other, System to verify the consistency and to verify the adequacy of the rate of change applied to the calculation of the electricity rate and whether or not the error of the transformer is exceeded.

The information technology system according to the present invention can save enormous cost and prevent risks according to the conventional method, and can prevent the post-related complaints related to the electric bill, thereby enhancing the reliability of the electric power business. It is possible to improve economical efficiency, efficiency and safety by reflecting the change of technology environment and utilizing big data by verifying the appropriateness in IT (Information Technology) It is also possible to determine whether there is an abnormality by analyzing the meter data (MD) of the watt hour meter and to determine whether there is an abnormality or a miswiring. Also, in the case of the direct transaction customer receiving power supply from the substation to the transmission line, To verify the adequacy of the power metering by the Big Data Analysis technique In addition, it overcame the existing inefficient inspection limitations, extended the IT system to verify the adequacy of all target customers, thereby preventing electricity tariffs, allowing fair trade, and imposing electricity charges retroactively It is a technology related to information technology system that verifies the ratio of flux transformer ratio and error range adequacy of special high voltage instrument transformer to prevent complaints and disputes.

Power system is building intelligent power network by combining electric power and IT. Electric power meter is evolving from mechanical watt meter and manpower meter to digital precision meter, MD meter remote meter reading and bi-directional communication, (MD) data such as electric power, electric power, voltage, current, and power factor are generated in real time and transmitted to the server of the electric company to build big data.

Meanwhile, the electric utility implements the periodical test on the target customers at regular intervals in order to check whether the error ratio of the current transformer and the current transformer ratio is proper by imposing the electricity rate reflecting the current ratio of the current meter. However, However, due to the limited cost of the system, problems related to the application of the current transformer ratio and the error range of the current transformer continue to occur.

Generally, MOF (Metering Out Fit) is used to calculate the electricity bill between the user who receives the special high voltage and the electric power supplier that supplies the electric power. The high and low currents are measured at low voltage and low current Is a combination of a potential transformer (PT) and a current transformer (CT).

In this case, the electricity rate is calculated by multiplying the electricity usage measured by the watt-hour meter by the CT ratio and the transformer ratio (PT ratio). Since the ratio of the transformer is constant while the ratio of the transformer is different according to the specification, The electricity rate is under-charged when the fault is applied and the electric charge is also lowered due to the deterioration of the function of the transformer due to aging or partial failure. Therefore, the ratio of the transformer and the error range are the key elements of the fair trade. .

In addition, the electric power company conducts periodic tests on site to find out such unfair cases, and the method of implementation is to visit the customers to verify the current ratio of the current transformers in the field by measuring the currents of the current transformers in the field, And inefficient field-based methods.

In this work process, there is a risk that the special high-voltage live part is in danger of approaching. Therefore, to improve this, it is necessary to reflect the change of the technical environment deviating from the existing manpower dependent hardware method, It is necessary to develop an information technology system for verifying the ratio of the current transformer and the error range of the transformer for a special high voltage instrument which can verify the error range appropriateness.

KR 10-2007-0064850 (June 29, 2007)

Therefore, in order to solve the above-mentioned problems, the present invention was conceived to convert the watt-hour meter and the big data of the power reception equipment into a software method for comparing and analyzing the existing watt-hour measurement hardware system. In the secondary side of the instrumental- By comparing the value obtained by converting the secondary meter data (MD) to the primary side and the primary measurement information value, it is possible to verify the adequacy of the rate of change applied to the calculation of the electricity rate and whether the current error of the current transformer is over the range It is an object of the present invention to provide an information technology system for verifying the ratio and error range of a transformer for a special high-voltage instrument.

Another object of the present invention is to provide a method and apparatus for determining the adequacy of a power metering by comparing a converted value obtained by converting a secondary meter data (MD) produced by a watt hour meter into a primary side in an existing ineffective field test periodic test method, By converting to the software method of judging whether the two values are collected and analyzed, it is possible to save enormous costs and to prevent the risk, as well as to provide a special And to provide an information technology system for verifying the current transformer ratio and error range adequacy of a high voltage gauge transformer.

Another object of the present invention is to improve the economical efficiency, safety and safety by utilizing the big data reflecting the change of the technology environment by eliminating the workforce-dependent hardware factors of the existing field test and verifying the appropriateness in the information technology (IT) And to provide an information technology system for verifying the ratio of the current transformer and the error range of the transformer for a special high-voltage instrument.

Another object of the present invention is to verify the correctness of the current transformer ratio and the error range of the transformer for a special high-voltage instrument which can determine the abnormality by analyzing the meter data (MD) of the watt- And to provide an information technology system.

Another object of the present invention is to provide a method and system for verifying correctness ratio and error range adequacy of a transformer for a special high-voltage instrument which can compare and verify the power side information and the load side meter data (MD) even in the case of a direct transaction customer receiving power supply from a substation to a transmission line Technology system.

Another object of the present invention is to overcome the existing inspection limit and to extend the application of the IT system for adequacy verification to all the target customers to prevent the electric charge leakage phenomenon, to make fair trade, to prevent complaints and disputes And to provide an information technology system for verifying the current ratio and error range adequacy of a special high-voltage instrument transformer.

In order to accomplish the above object, the present invention provides a transformer ratio and tolerance range verification of a special high-voltage meter transformer according to a preferred embodiment of the present invention. A metering transformer (MOF) connected to the inlet switch and incorporating a meter transformer (PT) for modifying a special high pressure to a low pressure and a meter current transformer (CT) for modifying a high current to a low current; A watt hour meter connected to the instrumentation transformer (MOF), for measuring the amount of usage at the secondary side of the instrumental transformer and for providing the secondary side meter data (MD) to the special high pressure remote meter reading system; A power breaker (CB) connected to the instrumental transformer (MOF) for cutting off power at the time of an accident; A transformer load current unit connected to the power breaker CB and providing transformer and switchboard operation information; A primary side receiving equipment measurement information collecting device for collecting the voltage and current of the primary side receiving equipment and transmitting the same to the system operation system; A system operation system for receiving and storing voltage and current which are measurement data of the primary side receiving equipment; A current transformer ratio reflecting unit that reflects the ratio of the current transformer to account for the ratio of the current transformer installed in the customer through the electricity bill calculating software and an electricity charge imposing unit that charges the electricity rate calculated by reflecting the current transformer ratio reflecting unit A special high-pressure remote meter-reading system for storing voltage, current, active energy amount, and received power which are information of meter data (MD) of the secondary side produced by the watt-hour meter; Software for collecting, analyzing and converting the meter data (MD) of the secondary side produced by the watt hour meter in the special high pressure remote meter reading system to the primary side; A primary side measurement information collection software for collecting and analyzing primary side receiving facility measurement information of the customer in the grid operation system; In the existing field measurement hardware method, the watt-hour meter and the big data of the receiving equipment are switched to the software method which compares and analyzes the meter data (MD) on the secondary side of the watt hour meter and the value obtained by converting the primary measurement information value If the two values are matched according to whether or not the two values are matched, it is judged as conformity through the conformity judgment unit and the verification is terminated. If the two values do not match, the defective ratio determination unit and the deflection error range are exceeded A special high-voltage instrument transformer which provides the result of verifying the error of the current transformer ratio, the error range exceeding, the phase-out and the mis-connection in real-time by the validity information technology system MOF) to verify the applicability of the current transformer ratio and the error range; .

delete

delete

delete

delete

As described above, the transformer ratio and error range adequacy verification information technology system of a transformer for a special high-voltage instrument of the present invention has the following effects.

First, the present invention was conceived to convert the watt-hour meter and the big data of the receiving facility into a software method in the existing field-realization hardware method, and it is possible to use a secondary meter data (MD) To the primary side and the primary measurement information value, it is possible to verify the adequacy of the rate of change applied to the calculation of the electricity rate and whether the error of the current transformer is exceeded.

Second, according to the present invention, the adequacy of the power metering is compared with the converted value obtained by converting the secondary meter data (MD) produced by the watt hour meter to the primary in the field test periodic test method, By switching to a software method of determining the sex, it can save enormous costs and prevent risks.

Third, the present invention eliminates the hardware-dependent and hardware-related factors of the existing field test and verifies the suitability of the IT system by using the big data, thereby preventing the post- .

Fourth, the present invention can analyze the meter data (MD) of the watt-hour meter in the software of the adequacy verification IT system to detect the image formation and mis-connection and judge the abnormality.

Fifth, the present invention can also verify the power side information and the load side meter data (MD) even in the case of a direct transaction customer receiving power from the substation to the transmission line.

Sixth, the present invention can overcome the existing inspection limit and extend the IT system for adequacy verification to all the target customers, thereby preventing the electricity tariff phenomenon and allowing fair trade.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining a standard wiring relationship of a special high-voltage receiving equipment according to an embodiment of the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]
3 is a diagram for explaining the configuration of a current transformer ratio and error range adequacy verification information technology system of a transformer for a special high-voltage instrument according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of related art or configuration may unnecessarily obscure the gist of the present invention, The description will be omitted, and the terms described below are defined in consideration of the functions of the present invention, and this may be changed according to the intention of the user, the operator, or the custom, so that the definition means the ratio of the current transformer of the special high- It should be based on the content of this specification which describes the information technology system to verify the error range adequacy.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

FIG. 1 is a view for explaining a standard wiring relationship of a special high-voltage receiving equipment according to an embodiment of the present invention. FIG. 2 is a schematic diagram of a main receiving equipment measurement information and watt- 3 is a view for explaining the configuration of a transformer ratio and error range adequacy verification information technology system of a transformer for a special high voltage instrument according to an embodiment of the present invention.

As shown in FIGS. 1 to 3, the transformer ratio and error range adequacy verification information system of the transformer for a special high-voltage instrument according to the present invention includes an input switch 100 of a special high-voltage receiving equipment; A metering transformer (PT) 220 connected to the inlet switch 100 for changing a special high pressure to a low pressure and a metering transformer (CT) 210 having a metering transformer (CT) 210 for modifying a high current to a low current (MOF) 200; A watt hour meter 300 connected to the MOF 200 for measuring the amount of usage at the secondary side of the instrumental transformer and providing the power information of the secondary side to the special high pressure remote meter reading system 800; A power breaker (CB) (400) connected to the instrument transformer (MOF) (200) for cutting off power at the time of an accident; A transformer load current unit 500 connected to the power breaker (CB) 400 and providing transformer and switchboard operation information; A primary side receiving equipment measurement information collecting device 600 including a function of collecting and transmitting the primary side receiving equipment measurement information to the system operating system 700; A system operation system 700 for receiving and storing receiving facility measurement information of a primary side and storing the received information; A special high-pressure remote meter-reading system 800 for storing the meter data (MD) 810 of the secondary side produced by the watt-hour meter 300; The special high-pressure remote meter-reading system 800 collects and analyzes the secondary-side meter data (MD) 310 produced by the watt-hour meter 300, collects secondary-side meter data (MD) Software 1110; A primary measurement information collection software 1120 for collecting and analyzing customer's primary measurement information in the grid operation system 700; (MOF) 200 according to whether the values of the secondary side meter data (MD) 810 are converted to the primary side and the values of the primary side measurement information 710 are compared and analyzed, Suitability verification software 1130 for verifying the application of the current transformer ratio and the accuracy of the error range; Respectively.

The function of each technical means constituting the information technology system will be described as follows. The transformer ratio and error range adequacy of the transformer for a special high-voltage instrument of the present invention will be described below.

(100) of the special high-voltage receiving equipment.

The instrumentation transformer (MOF) 200 is connected to the inlet switch 100 and includes a meter transformer (PT) 220 for modifying a special high pressure to a low pressure, a CT converter for modifying a high current to a low current, (210).

The watt hour meter 300 is connected to the MOF 200 and provides the power information of the secondary side to the special high pressure remote meter reading system 800.

The power breaker (CB) (400) is connected to the MOF (200) and interrupts electric power when an accident occurs.

The transformer load current unit 500 is connected to the power breaker (CB) 400 and provides information on transformer and switchboard operation.

The primary side receiving facility measurement information collection device 600 includes a function of collecting voltage and current of the primary side receiving facility and transmitting the collected voltage and current to the system operation system 700.

The system operation system 700 receives and stores the primary measurement information 710. Here, the primary measurement information 710 stored in the grid operating system 700 is voltage and current.

The special high pressure remote meter reading system 800 stores meter data (MD) 810 of the secondary side produced by the watt hour meter 300. Here, the meter data (MD) 810 information of the secondary side stored in the special high-pressure remote meter-reading system 800 is a voltage, an electric current, an effective electric energy, and an electric power.

The special high-voltage remote meter-reading system 800 includes a current transformer ratio reflector 910 that reflects the ratio of the current transformer to account for the ratio of the current transformer installed in the customer through the electricity bill calculation software, And an electricity billing unit 1000 that charges the electric bill calculated by reflecting the billing information in the billing unit 910.

The meter data (MD) information collection and primary side conversion software 1110 of the secondary side collects the meter data (MD) 810 of the secondary side produced by the watt hour meter 300 in the special high pressure remote meter reading system 800 And convert it to the primary side.

The primary measurement information collection software 1120 collects and analyzes the customer's primary measurement information 710 in the grid operation system 700.

The appropriateness verification software 1130 compares and analyzes the value obtained by converting the meter data (MD) 810 of the secondary side into the primary side and the primary measurement information 710 of the reception facility, and outputs it to a special high- ) 200 flux converter ratio and the error range adequacy.

Here, the suitability verification software 1130 compares and analyzes the converted value of the primary side of the watt-hour meter data (MD) 810 and the primary measurement information 710, and when the two values match, the compatibility determination unit 1140 And if the two values do not match, the nonconformity determining unit 1150 divides the current ratio into an error of the current transformer ratio and a current error of the current transformer.

In the suitability verification software 1130, when it is determined that the nonconformity is determined through the nonconformity determining unit 1150, the result of verifying the error of the current transformer ratio, error range exceeding, Technology system 1100 in real time.

In addition, the present invention described above is a method of comparing the primary measurement information 710 with the secondary measurement data (MD) 810 to determine the appropriateness of the electric power metering, It is also possible for customers to verify the appropriateness of electricity trading in the same way.

1, a special high-voltage faucet customer installs an incoming switch 100 with an electric company, and a large current in the instrument transformer (MOF) 200 for electric power metering is connected to the high voltage faucet A meter current transformer 210 for converting a small current into a low voltage and a meter transformer 220 for converting a special high voltage to a low voltage are provided so that the watt hour meter 300 can be measured and a power breaker CB) 400, and power is supplied through the transformer 500. At this time, the primary side measurement information 710 of voltage and current acquired from each device of the customer receiving facility is transmitted to the grid operating system 700 in a wired / wireless manner and stored as big data.

2, the special high-voltage faucet customer produces a meter transformer (MOF) 200 for power metering, and a meter transformer (MOF) 200 for generating the meter data (MD) The meter current transformer 210 and the meter transformer 220 are built in to measure the power in the watt hour meter 300 with the secondary current and the secondary voltage. At this time, the meter data (MD) 310 produced according to the load includes the voltage, the current, the amount of the active power, and the receiving power, and transmits the meter data (MD) 310 to the special high pressure remote meter reading system 800 And the electricity bill calculation software 900 charges the electricity bill through the electricity bill charging unit 1000 by calculating the proportion of the current transformer in the ratio reflector 910 of the current transformer installed in the customer.

As shown in FIG. 3, the transformer ratio and the error range adequacy of the transformer for a special high-voltage instrument are verified to be changed to a software method for comparing and analyzing the big data of the watt-hour meter and the receiving equipment in the existing field- A software 1110 for collecting and analyzing the special high pressure MOF current transformer ratio and error range adequacy verification IT system 1100 and the secondary meter data (MD) 310 produced by the watt hour meter 300, (1120) for collecting and analyzing the primary side measurement information (710) of the facility and an adequacy verification software (1130). In the secondary side MD collection and primary side conversion software (1110) of the watt hour meter, a special high pressure remote meter reading system 810 of the secondary side voltage, current, and power amount of the watt-hour meter 300 are collected and converted into a primary side value, and the primary side measurement information collection, The analysis software 1120 collects and analyzes measurement information 710 of voltage and current produced by the primary-side receiving equipment from the grid operating system 700. The adequacy verification software 1130 compares and analyzes the primary side conversion value of the watt hour meter data (MD) 310 with the measurement information 710 of the primary side reception equipment, and if the two values are identical, And if the two values are inconsistent, it is divided into the faulty ratio of the faulty ratio and the faulty range of the faulty transformer. At the same time, the faulty faulty information and the faulty faulty faulty information technology system 1100 are provided.

Verification of current transformer ratio and error range adequacy of transformer for special high voltage instrument As described above, since information technology system can be applied to verify current transformer ratio and error range adequacy of special high voltage instrument transformer in current transportation field, Do.

It will be understood by those skilled 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 in the appended claims.

100: Inlet switch
200: Instrument transformer (MOF) 210: Instrument transformer (CT)
220: Instrument transformer (PT) 300: Watt hour meter
310: Secondary meter data (MD) 400: Power breaker (CB)
500: Transformer load current part
600: Primary reception equipment measurement information collecting device
700: System operation system
710: Primary measurement information 800: Special high pressure remote meter reading system
810: Secondary meter data (MD) 900: Electricity billing software
910: Current transformer ratio reflection part 1000: Electricity charge part
1100: Verification of specific high-voltage MOF current transformer ratio and error range adequacy IT system
1110: Secondary meter data (MD) information collection and primary side conversion software
1120: Primary measurement information collection software
1130: Suitability verification software 1140:
1150: Incorrect judgment section

Claims (5)

Verification of current transformer ratio and error range adequacy of a special high-voltage instrument transformer In an information technology system,
An inlet switch of a special high-voltage receiving facility;
A metering transformer (MOF) connected to the inlet switch and incorporating a meter transformer (PT) for modifying a special high pressure to a low pressure and a meter current transformer (CT) for modifying a high current to a low current;
A watt hour meter connected to the instrumentation transformer (MOF), for measuring the amount of usage at the secondary side of the instrumental transformer and for providing the secondary side meter data (MD) to the special high pressure remote meter reading system;
A power breaker (CB) connected to the instrumental transformer (MOF) for cutting off power at the time of an accident;
A transformer load current unit connected to the power breaker CB and providing transformer and switchboard operation information;
A primary side receiving equipment measurement information collecting device for collecting the voltage and current of the primary side receiving equipment and transmitting the same to the system operation system;
A system operation system for receiving and storing voltage and current which are measurement data of the primary side receiving equipment;
A current transformer ratio reflecting unit that reflects the ratio of the current transformer to account for the ratio of the current transformer installed in the customer through the electricity bill calculating software and an electricity charge imposing unit that charges the electricity rate calculated by reflecting the current transformer ratio reflecting unit A special high-pressure remote meter-reading system for storing voltage, current, active energy amount, and received power which are information of meter data (MD) of the secondary side produced by the watt-hour meter;
Software for collecting, analyzing and converting the meter data (MD) of the secondary side produced by the watt hour meter in the special high pressure remote meter reading system to the primary side;
A primary side measurement information collection software for collecting and analyzing primary side receiving facility measurement information of the customer in the grid operation system;
In the existing field measurement hardware method, the watt-hour meter and the big data of the receiving equipment are switched to the software method which compares and analyzes the meter data (MD) on the secondary side of the watt hour meter and the value obtained by converting the primary measurement information value If the two values are matched according to whether or not the two values are matched, it is judged as conformity through the conformity judgment unit and the verification is terminated. If the two values do not match, the defective ratio determination unit and the deflection error range are exceeded A special high-voltage instrument transformer which provides the result of verifying the error of the current transformer ratio, the error range exceeding, the phase-out and the mis-connection in real-time by the validity information technology system MOF) to verify the applicability of the current transformer ratio and the error range; Wherein the transformer ratio and error range of the transformer for a special high voltage instrument are verified. delete delete delete delete

Images