AT524408A2 - INTELLIGENT CURRENT TRANSFORMER - Google Patents

Abstract

An intelligent current transformer is disclosed. The intelligent current transformer has a transformer case structure, a secondary wiring connector, a 485 bus wiring connector, a mounting base plate, a connector cover, a printed circuit board, a main magnetic core coil, and an auxiliary magnetic core coil. The main magnetic core coil, auxiliary magnetic core coil and circuit board are mounted within the transformer case structure and potted with epoxy. The secondary wiring connector and the 485 bus wiring connector are fixed to the transformer case structure by hot fusion. The circuit board is connected to the 485 bus wiring connector and an output line of the auxiliary magnetic core coil, and an output line of the main magnetic core coil is connected to the secondary wiring connector.

Description

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Austrian Patent Application Qingdao Topscomm Communication Co., Ltd P329951AT

INTELLIGENT CURRENT TRANSFORMER TECHNICAL FIELD

The present invention relates to the technical field of power devices, and more particularly to an intelligent power transformer.

BACKGROUND

In the power industry, when a power system of a certain voltage level and scale is to be developed, transformers of the appropriate voltage level and accuracy must be designed to meet the measurement, protection, and control requirements of the power system. On the one hand, the energy industry in China is developing at high speed due to rapid economic growth. Various energy sources such as fire, water, wind, light and nuclear are blooming like flowers. Power transformers are an important part of power transmission and power conversion devices, and the consumption of power transformers is increasing by 8% annually. On the other hand, current transformers are widely used in all walks of life, such as mining, metallurgy, rail transportation, port logistics, etc. The differences between industries result in more and more complex assembly environment. The number of installed devices is increasing day by day, and the difficulty of condition monitoring and refurbishing of the devices is also increasing linearly. At present, with more and more mature and perfect carrier technologies and radio technologies, the information from electricity meters, concentrators and other devices can be uploaded to a main station system. However, current transformers, an important part of a detection system, could not previously be monitored and managed.

According to the state power grid development plan, the Chinese smart grid electricity consumption information collection system must achieve full coverage of all electricity consumption points, advanced metering devices to collect and process information about the

Real-time user power usage status and information accurate and 1

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timely forwarded to other related power application systems to assist energy companies in various management and operational decisions. Achieving "full coverage and detection" of electricity consumers within the system of China's state-owned grid company will effectively change the situation in which it has long been unable to control electricity consumer information in a timely, complete and accurate manner, Urgent requirements of all levels and special areas of the system of the state grid company for the electricity consumption information of electricity consumers are met, and the company is greatly promoted to achieve a historic leap in modern management. Gathering information about current transformers is also an important part.

[0004] Current transformers are also widely used in other industries that are not directly related to the Chinese national grid company. Under the conditions of complex environment and many uncertain factors, intelligent transformers, which can provide information about the power condition, can bring great convenience to users. Of course, mounting an intelligent detection terminal near a power transformer to capture the status information of the power transformer can also enable real-time monitoring of the transformer device. However, assembling a smart device not only increases the cost, but also complicates the wiring and power supply scheme of the device. In the mining and rail environment, problems such as easy aging of wiring and limited operating space can arise. Complicated wiring not only reduces device reliability and complicates assembly, but may also introduce unknown safety hazards. Therefore, the integrated design of a current transformer and an intelligent terminal is of great importance.

[0005] Acquisition of the device information of current transformers to achieve unified management is an important problem to be urgently solved. By realizing remote monitoring and management on mounted devices, the use of many manpower and material resources can be avoided. The detected device information of a current transformer includes not only a device model and a current size, but also the status information of the

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Transformer such as measurement errors caused by temperature changes of coils or magnetic cores inside the current transformer, which requires long-term data recording and data comparison. This aspect is still new territory for current transformers. In addition, failure to monitor the output of a current transformer presents an opportunity for power theft. The diversification of electricity theft behavior makes it impossible to take comprehensive measures to combat electricity theft.

SUMMARY

In order to overcome inadequacies or shortcomings of prior art current transformers, the present invention provides an intelligent current transformer which integrates a conventional transformer and an intelligent detection terminal to open a data channel between the current transformer and a main station system and the device information of the Capture current transformer. With intelligent power transformer, unified management is achieved, and at the same time, it achieves the function of power theft verification. The internal temperature of the current transformer can be monitored in real time, and the goal of energy saving and emission reduction can be achieved through low power consumption and self-sufficient power supply design.

In order to solve the above problems, the solutions described below are adopted in the present invention.

There is provided an intelligent power transformer comprising a transformer housing structure, a main magnetic core coil, an auxiliary magnetic core coil, a printed circuit board, a secondary wiring connector, a 485 bus wiring connector, a terminal cover and a mounting base plate, with the main magnetic core coil, the auxiliary magnetic core coil and the printed circuit board within the transformer housing structure are assembled, the secondary wiring terminal and the 485 bus wiring terminal are fixed to the transformer case structure by hot fusion, the terminal cover is fixed to the transformer case structure by a screw, and the mounting base is connected to the transformer case structure.

The main magnetic core coil is cast with epoxy, an output line of

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The main magnetic core coil is connected to the secondary wiring connector, and the secondary wiring connector is connected to an external electricity meter at the same time through a measurement bus to enable current measurement.

The auxiliary magnetic core coil is epoxy potted, an output line of the auxiliary magnetic core coil is connected to the circuit board, and the auxiliary magnetic core coil supplies current to the circuit board according to the principles of electromagnetic induction, and at the same time detects a primary current value signal and sends the primary current value signal to the circuit board.

The circuit board is potted with epoxy, is connected to the 485 bus wiring connector, and receives the primary current value signal sent from the auxiliary magnetic core coil.

While the 485 bus wiring terminal is connected to the circuit board, a connection is made between the external electricity meter and a special transformer terminal, and the primary current value signal received from the circuit board is sent to the special transformer terminal.

The connector cover ensures that the secondary wiring connector and the 485 bus wiring connector cannot be freely touched without damaging the connector cover.

The mounting base is a cold-rolled sheet steel and is designed so that it is used to mount and secure the current transformer.

In addition, the circuit board has a 485 interface and a current sensing port, which are connected to the 485 bus wiring terminal and the output line of the auxiliary magnetic core coil for 485 communication and current measurement, respectively, and a measured current value can be transmitted through a 485 bus be uploaded to the special transformer connector externally connected to the intelligent power transformer.

[0016] Further, the circuit board has a temperature detection sensor capable of real-time monitoring of an internal temperature of the intelligent current transformer, so that a function of monitoring a change trend of an accuracy of the intelligent current transformer with a temperature is achieved.

In addition, the circuit board has a supercapacitor capable of

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Store energy through the auxiliary magnetic core coil to ensure normal operation of the circuit board.

[0018] Furthermore, two measured current values, which are detected by the main magnetic core coil and the auxiliary magnetic core coil, are compared. If the two current readings are equal, then it is determined that there is no power-stealing behavior, and if the two current readings are not equal, then it is determined that there is power-stealing behavior.

The present invention has the advantageous effects described below.

1. Device information of a transformer is acquired through a main station system, so that unified management is achieved.

2. Real-time monitoring of an output value of the current transformer effectively prevents current stealing behavior.

3. An internal temperature of the current transformer is monitored in real time, so that a function of monitoring a change trend of an accuracy of the intelligent current transformer with a temperature is achieved.

4. The goal of reducing energy and reducing emissions is achieved through low power consumption and a self-sufficient energy supply design.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an external view of an intelligent current transformer according to the present invention;

FIG. 2 is a longitudinal sectional view of an intelligent current transformer according to the present invention;

FIG. 3 is a top plan view of a smart current transformer in accordance with the present invention; and

Figure 4 is a block diagram of an operational smart power transformer in accordance with the present invention.

[0028] List of reference numbers

1 transformer housing structure

2 secondary wiring connector 5

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3 485 bus wiring connector 4 Mounting base

5 connector cover

6 circuit board

7 main magnetic core coil

8 auxiliary magnetic core coil

9 electricity meters

10 special transformer connection

11 485 bus 12 measurement bus

DETAILED DESCRIPTION

The present invention will be described in detail below in connection with the drawings and embodiments.

As shown in FIG. 1, FIG. 2 and FIG. 3, an intelligent current transformer has a transformer case structure 1, a secondary wiring connector 2, a 485 bus wiring connector 3, a mounting base 4, a connector cover 5, a circuit board 6, a main magnetic core coil 7, and an auxiliary magnetic core coil 8. The main magnetic core coil 7, auxiliary magnetic core coil 8 and circuit board 6 are mounted inside the transformer case structure and potted with epoxy. The secondary wiring terminal 2 and the 485 bus wiring terminal 3 are fixed to the transformer case structure 1 by hot fusion, the terminal cover 5 is fixed to the transformer case structure 1 by a screw, and the mounting base 4 is connected to the transformer case structure 1 .

An output line of the main magnetic core coil 7 is connected to the secondary wiring terminal 2, and the secondary wiring terminal 2 is simultaneously connected to an external electricity meter via a measurement bus 12 to achieve current measurement.

An output line of the auxiliary magnetic core coil 8 is connected to the circuit board 6, and the auxiliary magnetic core coil 8 supplies current to the circuit board according to the principles of electromagnetic induction, and at the same time detects a primary current value and sends the primary current value signal to the circuit board.

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The circuit board 6 is connected to the 485 bus wiring terminal 3 and receives the primary current value signal sent from the auxiliary magnetic core coil 8 at the same time.

While the 485 bus wiring terminal 3 is connected to the circuit board 6, a connection is made between the external electricity meter and a special transformer terminal, and the 485 bus wiring terminal 3 simultaneously sends a primary current value signal received from the circuit board 6 to the special transformer terminal.

The terminal cover 5 ensures that the secondary wiring terminal 2 and the 485 bus wiring terminal 3 cannot be touched freely unless the terminal cover 5 is damaged.

The material of the mounting base 4 is a cold-rolled steel sheet, and the mounting base 4 is for mounting and fixing the current transformer.

In addition, the circuit board 6 has a 485 interface and a current sensing port, which are connected to the 485 bus wiring terminal 3 and the output line of the auxiliary magnetic core coil 8, respectively, for 485 communication and current measurement, and a measured current value is connected via a 485 bus uploaded to a special transformer port 10.

Furthermore, the circuit board 6 has a temperature detection sensor capable of real-time monitoring of an internal temperature of the intelligent current transformer, so that a function of monitoring a change trend of an accuracy of the intelligent current transformer with a temperature is achieved.

In addition, the circuit board 6 has a supercapacitor capable of storing energy through the auxiliary magnetic core coil 8 to ensure normal operation of the circuit board.

In the actual assembling and using process, bus bars are passed through the smart power transformer, and the smart transformer is fixed in a junction box via the mounting base 4 . As shown in FIG. 4, the circuit board 6 has a temperature detection sensor capable of real-time monitoring of an internal temperature of the intelligent power transformer. The main magnetic core coil 7 can measure a busbar current, and the external

Electricity meter 9 is connected to the secondary wiring terminal 2 and detects a 7

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measured busbar current value through the measurement bus 12. The electricity meter 9 is connected to the special transformer port 10 through the 485 bus 11, and the measured busbar current value and temperature information can be uploaded to the main station system through the special transformer port 10. In this way, the intelligent power transformer can be monitored and managed remotely, eliminating the blind spot of monitoring the transformer in the detection system. For the auxiliary magnetic core coil 8, an amorphous magnetic core of 10 mm × 5 mm with a winding number of 1200 is adopted, and the auxiliary magnetic core coil 8 can measure a bus current simultaneously with the main magnetic core coil 7. The output line of the auxiliary magnetic core coil 8 is connected to the current sensing port of the circuit board 6, which on the one hand can supply power to the circuit board and on the other hand can enable the detection of the bus current. The 485 interface of the circuit board 6 is connected to the 485 bus wiring terminal 3, and the current value detected by the auxiliary magnetic core coil 8 is transmitted to the special transformer terminal 10 through the 485 bus, and then uploaded to the main station system. In this way, the special transformer connection 10 receives both the measured current value from the main magnetic core coil 7 and the measured current value from the auxiliary magnetic core coil 8. The two measured values are compared with one another. If the two measured values are the same, there is no electricity theft behavior, if the two measured values are not the same, electricity theft behavior is present. Current methods of power stealing result in a change in the current measurement value of the main magnetic core coil 7, and the changed current measurement value is not equal to the current measurement value of the auxiliary magnetic core coil 8, so that it is determined whether there is power theft behavior.

The foregoing merely represents embodiments of the present invention and is not intended to limit the scope of the present invention. Any equivalent structural variations or equivalent process variations made on the basis of the description and drawings of the present invention, or direct or indirect use in other relevant fields, all fall within the scope of the present invention.

Claims (5)

15 20 25 30 P329951AT GERMAN TRANSLATION OF A50836/2021 patent claims: 1. Intelligent current transformer, which has a transformer housing structure, a main magnetic core coil, an auxiliary magnetic core coil, a circuit board, a secondary wiring connector, a 485 bus wiring connector, a terminal cover and a mounting base, characterized in that the main magnetic core coil, the auxiliary magnetic core coil and the circuit board are mounted within the transformer housing structure , the secondary wiring terminal and the 485 bus wiring terminal are fixed to the transformer case structure by hot fusion, the terminal cover is fixed to the transformer case structure by a screw, and the mounting base is connected to the transformer case structure, wherein the main magnetic core coil is epoxy potted, an output line of the main magnetic core coil is connected to the secondary wiring terminal, and a bus current value is detected via a measurement bus connected to the secondary wiring terminal; the auxiliary magnetic core coil is epoxy potted, an output line of the auxiliary magnetic core coil is connected to the circuit board, and the auxiliary magnetic core coil supplies power to the circuit board according to the principles of electromagnetic induction and detects a primary current value signal and sends the primary current value signal to the circuit board; the circuit board is encapsulated with epoxy, connected to the 485 bus wiring connector, and receives the primary current value signal sent from the auxiliary magnetic core coil; the secondary wiring connector is connected to an external electricity meter and to the measurement bus to enable electricity measurement; wherein, while the 485 bus wiring terminal is connected to the circuit board, a connection is effected between the external electricity meter and a special purpose transformer terminal, and the primary current value signal received from the circuit board is sent to the special purpose transformer terminal; and The connector cover ensures that the secondary wiring connector and 485 bus wiring connector cannot be freely touched without closing the connector cover 9 15 20 25 P329951AT GERMAN TRANSLATION FOR A50836/2021 to damage. 2. Intelligent current transformer according to claim 1, characterized in that the circuit board has a 485 interface and a current sensing port, which are connected to the 485 bus wiring terminal and to the output line of the auxiliary magnetic core coil for 485 communication and current measurement, and a measured current value via A 485 bus can be uploaded to the special transformer connector, which is externally connected to the intelligent current transformer. 3. Intelligent current transformer according to claim 1 or 2, characterized in that the circuit board has a temperature detection sensor capable of monitoring an internal temperature of the intelligent current transformer in real time, so that a function of monitoring a change trend of an accuracy of the intelligent current transformer with a temperature is reached. 4. Intelligent current transformer according to any one of claims 1 to 3, characterized in that the circuit board has a supercapacitor capable of storing energy through the auxiliary magnetic core coil to ensure normal operation of the circuit board. 5. Intelligent current transformer according to one of claims 1 to 4, characterized in that two current readings, which are detected by the main magnetic core coil and the auxiliary magnetic core coil are compared, and that if the two current readings are the same, it is determined that no power theft behavior is present , and if the two power readings are not equal, determining that power stealing behavior is present. 10