KR102149647B1 - System and method for checking state of metering out fit - Google Patents

Abstract

The present invention relates to a system and method for checking the condition of an instrument transformer.
An instrument transformer status check system according to an embodiment of the present invention includes an inlet switch and an instrument transformer connected to the inlet switch to transform a special high pressure into a first low pressure and transform a high current into a low current. A watt-hour meter that measures power consumption, a transformer that converts a first low voltage of an instrument transformer to a second low voltage, a plurality of loads operating at the second low voltage of the transformer, and a load provided between the transformer and each of the plurality of loads A power receiving facility including a plurality of CT sensors that measure the amount of current flowing into each, a connected remote meter reading device that is connected to the watt-hour meter to remotely measure the power consumption of the instrument transformer, and the amount of current measured by a plurality of CT sensors. It includes a condition checking device that compares the amount of electricity and the power consumption of the instrument transformer read by the remote meter reading device, and checks whether the instrument transformer is in a fault condition.

Description

A system and method for checking the status of an instrument transformer {SYSTEM AND METHOD FOR CHECKING STATE OF METERING OUT FIT}

The present invention relates to a system and method for checking the condition of an instrument transformer.

Electricity charge is calculated by multiplying the electricity consumption measured by the watt-hour meter by CT Ratio and PT Ratio. In this process, the current transformer ratio is constant, whereas the current transformer ratio varies by standard, so the current transformer ratio is misapplied. In case of deterioration or partial failure of the instrument current transformer, the electricity rate is also under-charged. Therefore, the current rate and the margin of error are key elements of fair trade, and customer complaints may arise upon discovery. will be.

In order to find such an unfair case, the power company conducts regular tests on site, and the implementation method is as shown in Figs. It takes a field measurement method that is manpower dependent and consumes a huge budget, such as verifying the current ratio by measuring the secondary current and verifying the current ratio error range.

The above-described background technology is technical information possessed by the inventor for derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily known to be known to the public prior to filing the present invention.

Korean Patent Publication No. 10-1692316

The present invention has been conceived to solve the above-described problems and/or limitations, and an object of the present invention according to an aspect is to check the status of an instrument transformer in real time to check the status of an instrument transformer in real time, such as abnormal wiring, drainage errors, and electric charges due to forgery/modulation It is to prevent accidents in advance by preventing the calculation of inadequateness and taking prompt countermeasures.

An instrument transformer status check system according to an embodiment of the present invention includes an instrument transformer that is connected to an inlet switch to transform a special high pressure into a first low pressure and transforms a high current into a low current, and the power consumption of the instrument transformer. A power meter to be measured, a transformer for converting the first low voltage of the instrument transformer to a second low voltage, a plurality of loads operating at a second low voltage of the transformer, and provided between the transformer and each of the plurality of loads A power receiving facility including a plurality of CT sensors that measure the amount of current flowing into each of the loads; A remote meter reading device connected to the power meter and connected to remote meter reading of power consumption of the meter transformer; And a condition checking device for comparing the amount of power converted from the amount of current measured by the plurality of CT sensors with the amount of power used by the meter transformer read by the remote meter reading device to check whether the meter transformer is in a fault condition. Can include.

The condition checking device includes: a gateway for collecting the amount of current measured by the plurality of CT sensors; In response to the first power difference value between the power amount converted from the sum of the current amounts measured by the plurality of CT sensors collected from the gateway and the power consumption amount of the instrument transformer metered by the remote meter reading device, the previously stored A loss compensation unit for applying a loss compensation value of the transformer; And a second between the amount of power converted by adding the loss compensation value of the transformer to the sum of the amount of current measured by the plurality of CT sensors collected from the gateway and the power consumption of the instrument transformer read by the remote meter reading device. It may include a state check unit for determining that an abnormality has occurred in the instrument transformer when the difference in power amount exceeds the reference error.

The state checking unit, when the difference value of the second power amount exceeds a reference error, a transformation ratio of an instrument transformer that transforms the special high voltage included in the instrument transformer into a first low voltage and transforms the high current into a low current It can be judged that an abnormality has occurred in one or more of the transformation ratios of the current transformers for instruments.

The state checking apparatus may further include a synchronization unit for controlling the plurality of CT sensors such that the power consumption measurement time of the instrument transformer of the power meter is tracked by the current amount measurement time of the plurality of CT sensors.

A method for checking the status of an instrument transformer according to an embodiment of the present invention includes an instrument transformer connected to an inlet switch, a watt hour meter for measuring the power consumption of the instrument transformer, and connected to the instrument transformer. The load measured by the plurality of CT sensors among power receiving facilities including a transformer, a plurality of loads operating at a second low voltage of the transformer, and a plurality of CT sensors provided between the transformer and each of the plurality of loads Collecting an amount of current flowing into each; Collecting, by the state checking device, power usage of the meter transformer connected to the power meter and remotely metered by the remote meter reading device; And comparing the amount of power converted from the amount of current measured by the plurality of CT sensors with the power consumption of the meter transformer read by the remote meter reading device by the condition checking device to determine whether the meter transformer is in a failure state. It may include a; step of checking.

In the step of checking, in response to a first electric energy difference value between the electric power converted from the sum of the electric currents measured by the plurality of CT sensors and the electric power consumption of the instrument transformer checked by the remote meter reading device, the pre-stored Applying a loss compensation value of the transformer; And a second between the amount of power converted by adding the loss compensation value of the transformer to the sum of the amount of current measured by the plurality of CT sensors collected from the gateway and the power consumption of the instrument transformer read by the remote meter reading device. When the difference in power amount exceeds the reference error, determining that an abnormality has occurred in the instrument transformer.

The determining may include, when the difference value of the second power amount exceeds a reference error, the transformation ratio of the instrument transformer for transforming the special high voltage included in the instrument transformer into a first low voltage and the high current to a low current. It may include; determining that an abnormality has occurred in one or more of the transformation ratios of the current transformer for the instrument to be transformed.

The method further includes, by the state checking device, controlling the plurality of CT sensors such that the power consumption measurement time of the instrument transformer of the power meter is followed by the current amount measurement time of the plurality of CT sensors; can do.

In addition to this, another method for implementing the present invention, another system, and a computer program for executing the method may be further provided.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

According to embodiments, by checking the status of an instrument transformer in real time, it is possible to prevent inadequate calculation of electricity bills due to abnormal wiring, drainage errors, and transformer forgery/modulation in advance, and safety accidents with quick response measures.

In addition, it is possible to relieve the fatigue of direct management such as on-site technical guidance for customers who have difficulty in consignment services during inspections such as late-night loads, agricultural use pauses, and distributed types.

In addition, it is possible to reduce consignment costs for periodic testing of instrument transformers and prevention of failure of power receiving facilities.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a diagram showing a test of an instrument transformer by personnel dispatched to the field according to the prior art.
2 is a diagram schematically illustrating a system for checking a state of an instrument transformer according to an embodiment of the present invention.
3 is a flowchart illustrating a method of checking a state of an instrument transformer according to an embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments described in detail together with the accompanying drawings. However, it should be understood that the present invention is not limited to the embodiments presented below, but may be implemented in a variety of different forms, and includes all transformations, equivalents, or substitutes included in the spirit and scope of the present invention. . The embodiments presented below are provided to complete the disclosure of the present invention, and to fully inform a person of ordinary skill in the art to which the present invention belongs. In describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

The terms used in the present application are used only to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance. Terms such as first and second may be used to describe various elements, but the elements should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, identical or corresponding components are assigned the same reference numbers, and redundant descriptions thereof are omitted. I will do it.

2 is a diagram schematically illustrating a system for checking a state of an instrument transformer according to an embodiment of the present invention. Referring to FIG. 2, a system for checking a state of a transformer for an instrument 1 may include a power receiving facility 100, a remote meter reading device 200, and a state checking device 300.

The power receiving facility 100 may refer to an assembly of electric devices that supply electricity to the load facility by converting the extra-high voltage electricity received from a power company (eg, Korea Electric Power Corporation) into low-voltage electricity suitable for operation of the load facility. Depending on the purpose, the facility for converting electricity received at a special high voltage from a power company into a low voltage is called a high voltage power receiving facility, and a facility for converting the electricity received at a special high voltage into a low voltage is called a special high voltage receiving facility. .

Such a power receiving facility 100 includes an inlet switch 110, a metering out-fit (MOF, 120), a watt hour meter 130, a transformer 140, a load 150, and a CT sensor 160. I can.

The lead-in switch 110 is disposed at the inlet of a special high voltage electricity supplied from a power company to open and close the special high voltage and high current.

The meter transformer 120 is connected to the inlet switch 110 to allow high voltage and high current to be metered in the watt hour meter 130 installed to calculate the electric charge between a user receiving a special high voltage and a power provider supplying power. It may be a device that accurately supplies by transforming into low voltage and low current. Such an instrument transformer 120 includes a potential transformer (PT, not shown) for converting a special high voltage into a low voltage and a current transformer (CT, not shown) for converting a high current into a low current. I can.

The watt hour meter 130 may measure the power consumption of the instrument transformer 120, and the power consumption may be calculated by multiplying the current transformer ratio (CT ratio) and the transformer ratio (PT ratio).

The transformer 140 is connected to the instrument transformer 120 to convert the low voltage transformed by the instrument transformer 120 into a low voltage for driving the load 150. Assuming that the low voltage transformed by the instrument transformer 120 is the first low voltage, the voltage output from the transformer 140 may be a second low voltage lower than the first low voltage, for example, 220V. In the present embodiment, the load 150 is illustrated as the first load 151 to the third load 153, but the number of loads 150 may be plural.

The CT sensor 160 is provided between the output terminal of the transformer 140 and the input terminal of the load 150 to measure the amount of current flowing into the load 150. Here, the CT sensor 160 may measure the amount of pulses of the incoming current, and may measure the amount of power later using the amount of pulses of the current. In this embodiment, the number of loads 150 and the number of CT sensors 160 may be the same. That is, in the present embodiment, the CT sensor 160 is illustrated as the first CT sensor 161 to the third CT sensor 163, but the number of CT sensors 160 is not limited thereto.

The remote meter reading device 200 may remotely read and store the power consumption of the meter transformer 120 measured by the watt hour meter 130 in a preset time unit, and calculate charge information according to the power consumption. The remote meter reading device 200 may be connected to a data concentration device (not shown) that collects meter reading data through a conventional communication network (eg, CDMA, Wibro, HFC, etc.).

The condition checking device 300 compares the sum of the amount of current measured by the plurality of CT sensors 160 and the power consumption of the meter transformer 120 that the remote meter reading device 200 has read through the watt hour meter 130, It is possible to check whether the instrument transformer 120 is in a faulty state. The condition checking apparatus 300 may include a gateway 310, a loss compensation unit 320, a condition check unit 330, and a synchronization unit 340.

The gateway 310 may collect the amount of current measured from each of the plurality of CT sensors 160.

Loss compensation unit 320, the amount of power converted from the sum of the amount of current measured by the plurality of CT sensors 160 collected from the gateway 310, and the meter transformer that the remote meter reading device 200 reads through the watt hour meter 130 A first power difference value between the power consumption of 120 may be calculated, and a pre-stored loss compensation value of the transformer 140 may be applied in response to the first power difference value. Here, applying the loss compensation value of the transformer 140 includes adding the loss compensation value of the transformer 140 to the sum of the current amounts measured by the plurality of CT sensors 160 collected from the gateway 310. I can.

The condition check unit 330 adds the amount of current measured by the plurality of CT sensors 160 collected from the gateway 310 and the amount of power converted by adding the loss compensation value of the transformer 140, and the remote meter reading device 200 When the second power difference value between the power consumption of the meter transformer 120 measured through the watt hour meter 130 is less than the reference error, it is determined that the meter transformer 120 is operating normally, and the second power difference value is If the reference error is exceeded, it may be determined that an abnormality has occurred in the instrument transformer 120.

When it is determined that an abnormality has occurred in the instrument transformer 120 because the second electric energy difference value exceeds the reference error, the condition check unit 330 transforms the special high pressure included in the instrument transformer 120 into a low pressure. It can be determined that an abnormality has occurred in one or more of the transformation ratio of the transformer PT and the transformation ratio of the instrument current transformer CT that transforms the high current into a low current.

The synchronization unit 340 includes a plurality of CT sensors 160 so that the time when the power consumption of the instrument transformer 120 is measured through the watt hour meter 130 is followed by the time when the plurality of CT sensors 160 measure the amount of current. Can be controlled. That is, the synchronization unit 240 may match the measurement time of the power amount measurement time of the watt hour meter 130 and the current amount of the CT sensor 160 to the measurement time. For example, when the watt hour measurement time of the watt hour meter 130 is from 12:00 to 12:15, the CT sensor 160 also measures the amount of current from 12:00 to 12:15. You can control the operation. The operation control signal of the CT sensor 160 may be transmitted to the CT sensor 160 through the gateway 310.

3 is a flowchart illustrating a method of checking a state of an instrument transformer according to an embodiment of the present invention. In the following description, portions that overlap with the description of FIG. 2 will be omitted.

Referring to FIG. 3, in step S310, the condition checking apparatus 300 collects an amount of current measured from each of the plurality of CT sensors 160 included in the power receiving facility 100.

In step S320, the state checking device 300 collects the remote meter reading result of the power consumption of the meter transformer 120 measured by the watt hour meter 130 included in the power receiving facility 100 from the remote meter reading device 200.

In step S330, the condition checking device 300 includes an amount of power converted from the sum of the amount of current measured by the plurality of CT sensors 160, and the meter transformer 120 that the remote meter reading device 200 reads through the power meter 130. A first power difference value between the power consumption of) is calculated, and a pre-stored loss compensation value of the transformer 140 is applied in response to the first power difference value. Here, applying the loss compensation value of the transformer 140 includes adding the loss compensation value of the transformer 140 to the sum of the current amounts measured by the plurality of CT sensors 160 collected from the gateway 310. I can.

In step S340, the condition check device 300 adds the amount of current measured by the plurality of CT sensors 160 collected by adding the loss compensation value of the transformer 140 to the converted power amount and the remote meter reading device 200 It is determined whether the difference in the second amount of power between the power consumption of the meter transformer 120 measured through the watt-hour meter 130 exceeds a reference error.

In step S350, the condition checking apparatus 300 determines that the instrument transformer 120 is operating normally when the difference value of the second amount of power is less than the reference error.

In step S360, when the difference value of the second amount of power exceeds the reference error, the state checking apparatus 300 determines that an abnormality has occurred in the instrument transformer 120.

As an alternative embodiment, the condition checking apparatus 300 may transmit an operation control signal to the CT sensor 160 so that the power amount measurement time of the watt hour meter 130 and the current amount of the CT sensor 160 match the measurement time.

The embodiment according to the present invention described above may be implemented in the form of a computer program that can be executed through various components on a computer, and such a computer program may be recorded in a computer-readable medium. In this case, the medium is a magnetic medium such as a hard disk, a floppy disk, and a magnetic tape, an optical recording medium such as a CD-ROM and a DVD, a magneto-optical medium such as a floptical disk, and a ROM. A hardware device specially configured to store and execute program instructions, such as, RAM, flash memory, and the like.

Meanwhile, the computer program may be specially designed and configured for the present invention, or may be known and usable to those skilled in the computer software field. Examples of the computer program may include not only machine language codes produced by a compiler but also high-level language codes that can be executed by a computer using an interpreter or the like.

In the specification of the present invention (especially in the claims), the use of the term "above" and a similar reference term may correspond to both the singular and the plural. In addition, when a range is described in the present invention, the invention to which an individual value falling within the range is applied (unless otherwise stated), and each individual value constituting the range is described in the detailed description of the invention. Same as

If there is no explicit order or contradictory description of the steps constituting the method according to the present invention, the steps may be performed in an appropriate order. The present invention is not necessarily limited according to the order of description of the steps. The use of all examples or illustrative terms (for example, etc.) in the present invention is merely for describing the present invention in detail, and the scope of the present invention is limited by the above examples or illustrative terms unless limited by the claims. It does not become. In addition, those skilled in the art can recognize that various modifications, combinations, and changes may be configured according to design conditions and factors within the scope of the appended claims or their equivalents.

Therefore, the spirit of the present invention is limited to the above-described embodiments and should not be determined, and all ranges equivalent to or equivalently changed from the claims to be described later as well as the claims to be described later are the scope of the spirit of the present invention. It will be said to belong to.

1: Instrument transformer condition check system
100: power receiving equipment
200: remote meter reading device
300: health check device

Claims (8)

An instrument transformer that is connected to an inlet switch to convert a special high voltage into a first low pressure and converts a high current into a low current, a watt hour meter that measures the power consumption of the instrument transformer, and the first low voltage of the instrument transformer. 2 A transformer that transforms to a low voltage, a plurality of loads operating at a second low voltage of the transformer, and a plurality of CT sensors provided between the transformer and each of the plurality of loads to measure the amount of current flowing into each of the loads. Power receiving equipment including;
A remote meter reading device connected to the watt hour meter and configured to remotely meter the power consumption of the meter transformer measured by the meter at every preset time; And
The loss compensation value by the transformer is added to the sum of the current amounts measured by the plurality of CT sensors, the amount of power is calculated based on the sum of the amount of current to which the loss compensation value is added, and the calculated amount of power and the remote meter reading device Including, a status check system for an instrument transformer, which calculates a difference value between the power consumption of the instrument transformer, which is metered, and checks whether the instrument transformer is in a fault condition based on the difference value The method of claim 1, wherein the remote meter reading device,
Transmits meter reading data to the data concentration device through the communication network,
The communication network, including one of CDMA, Wibro, and HFC, instrument transformer status check system. The method of claim 1, wherein the condition checking device,
When the difference value exceeds the reference error, among the transformation ratio of the instrument transformer that transforms the special high voltage included in the instrument transformer into the first low voltage and the transformation ratio of the instrument current transformer transforming the high current into a low current, An instrument transformer condition check system that determines that one or more abnormalities have occurred. The method of claim 1, wherein the condition checking device,
A synchronization unit for controlling the plurality of CT sensors so that the power consumption measurement time of the meter transformer of the watt hour meter is tracked by the current amount measurement time of the plurality of CT sensors. An instrument transformer that is connected to an inlet switch to convert a special high voltage into a first low pressure and converts a high current into a low current, a watt hour meter that measures the power consumption of the instrument transformer, and the first low voltage of the instrument transformer. 2 A transformer that transforms to a low voltage, a plurality of loads operating at a second low voltage of the transformer, and a plurality of CT sensors provided between the transformer and each of the plurality of loads to measure the amount of current flowing into each of the loads. In the method of operating an instrument transformer condition check system for checking the condition of the instrument transformer in a power receiving facility comprising,
Adding, by the state checking device of the state checking system, a loss compensation value by the transformer to the sum of the amount of current flowing into each of the loads measured by the plurality of CT sensors;
Calculating, by the condition checking apparatus, an amount of power based on the sum of the amount of current to which the loss compensation value is added;
Collecting, by the state checking device, the power consumption of the meter transformer measured every preset time by a remote meter reading device connected to the power meter;
Calculating, by the state checking device, a difference value between the calculated amount of electric power and the electric power usage of the meter transformer read by the remote meter reading device; And
The method of operating an instrument transformer condition checking system comprising a; step of checking, by the condition checking device, whether the instrument transformer is in a fault condition based on the difference value. The method of claim 5,
The remote meter reading device further comprises transmitting meter reading data to the data concentration device through a communication network,
The communication network, including one of CDMA, Wibro, and HFC, a method of operating an instrument transformer status check system. The method of claim 6,
The step of checking whether the instrument transformer is in a failure state,
When the difference value exceeds a reference error, the condition checking device converts the special high voltage included in the instrument transformer into a first low voltage, and the transformation ratio of the instrument transformer and the instrument transforming the high current into a low current Determining that an abnormality has occurred in one or more of the transformation ratios of the current transformer for use; including, operating method of a system for checking an instrument transformer condition. The method of claim 6,
The state checking apparatus further comprises, controlling the plurality of CT sensors so that the power consumption measurement time of the instrument transformer of the watt hour meter is followed by the current amount measurement time of the plurality of CT sensors. How the health check system works.

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