KR20210029057A - Terminal block with CT / VT protection device for switch gear based on IoT technology - Google Patents

Abstract

The present invention relates to a terminal block for a switchgear equipped with a CT/VT protection device based on IoT technology, which includes an auxiliary potential transformer (PT), a first relay, an auxiliary current transformer (CT), and a second relay. According to the present invention, by detecting the overcurrent and overvoltage phenomena which occur, when secondary terminals of CT and VT, which are one of the internal components of the switchgear, are opened or shorted, the secondary terminal is automatically short-circuited to CT and open to VT in the event of an open or short circuit, so that burnout of CT and VT can be prevented in advance.

Description

Terminal block with CT / VT protection device for switch gear based on IoT technology}

The present invention relates to a terminal block for a switchboard having a CT/VT protection device based on IoT technology, and more particularly, an overcurrent that occurs when a secondary terminal of CT and VT, which is one of the internal components of the switchboard, is opened or shorted, and Terminal block for switchgear with IoT technology-based CT/VT protection device that detects overvoltage and automatically opens the secondary terminal in case of an open or short circuit to prevent CT and VT from being burned out in advance by shorting the CT and opening the VT. It is about.

In general, a switchboard is a device in which various instruments, main circuit opening and closing devices, and protection relays are installed inside a metal box in order to supply power from the power system to the customer. The cubicle type switchgear with high reliability is widely used. This switchgear supplies power to customers and is one of the important devices that must ensure stable and high operational reliability at all times, considering that it is a device that includes various protection devices.

The switchboard is the primary power facility to receive power from general customers. Therefore, the failure and burnout of the switchgear does not end with a simple equipment failure and maintenance/repair costs, but can cause human and material damage due to electric disasters at customers, and in particular, enormous power outage costs due to the interruption of power supply. Can occur.

In addition, in the case of electric equipment including instrument transformers, it is known that they usually have an operating life of 10 years or more. During the period, an overload and a decrease in the insulation performance of the insulating material due to the application of an abnormal voltage act as the cause of major failures and burnouts.

However, in addition to the general failure of such electric devices, in the case of an instrument transformer, there is a problem inherent in the risk of rapid burnout and further product explosion due to an open or short circuit at the secondary terminal.

는 1차전류[A],

는 2차전류[A],

는 여자전류[A],

는 부하전류[A],

는 권수비이다. 또한, 도 2에서,

는 1차 전압[V],

는 2차 유기전압[V],

는 부하전압[V],

는 부담임피던스[ohm],

는 CT임피던스[ohm]이다. 1 and 2 show equivalent circuits when the CT secondary terminal is opened and the VT secondary terminal is shorted, respectively. In Fig. 1,

Is the primary current [A],

Is the secondary current [A],

Is the excitation current [A],

Is the load current [A],

Is the turn ratio. Also, in Fig. 2,

Is the primary voltage [V],

Is the secondary induced voltage [V],

Is the load voltage [V],

Is the burden impedance [ohm],

Is the CT impedance [ohm].

)이 매우 낮다. 그러나 2차측 단자가 오결선 혹은 접속불량 등의 원인으로 개방되는 경우 모든 2차전류(

)가 모두 여자전류(

)로 작용하고, 이로 인하여 2차측에 매우 높은 전압(

)이 유기되어, 2차측 권선부에서의 절연파괴로 인한 제품의 고장 및 소손이 발생할 수 있다.As shown in Fig. 3, in the case of CT, the impedance of the secondary winding is very low due to structural characteristics, and the secondary induced voltage (

) Is very low. However, if the secondary terminal is opened due to incorrect wiring or poor connection, all secondary currents (

) Is the excitation current (

), and due to this, a very high voltage on the secondary side (

) Is induced, resulting in product breakdown or burnout due to insulation breakdown at the secondary winding.

)로 인한 2차측 권선이 열화 소손이 되며, 1차측 권선으로 높은 전압(

)이 유기되어 1차측 절연파괴로 인한 VT 소손의 위험이 있다. In addition, as shown in FIG. 4, in the case of VT, when the impedance of the secondary circuit is low or short-circuited, as opposed to the CT, overcurrent flows to the secondary winding. In this case, overcurrent (

), the secondary winding is deteriorated and burned, and a high voltage (

) Is induced and there is a risk of VT burnout due to insulation breakdown on the primary side.

These CT and VT secondary terminals can be opened or short-circuited due to poor connection due to product aging, but the switchboard is connected in a very complex form through the terminal block. There is a high possibility of open or short circuit due to incorrect wiring and poor connection of CT and VT secondary terminals due to mistakes.In fact, most of the operators are not aware of the risk of opening or short circuit of CT and VT. The high risk of electrical disaster was a serious problem.

Korean Patent Laid-Open Patent No. 10-2017-0051984 published on May 12, 2017, "The switchgear applied with the electric short-circuit resistance measuring device before use"

In order to solve the problems of the prior art as described above, the present invention detects an overcurrent and an overvoltage phenomenon that occurs when the CT and VT secondary terminals, which are one of the internal components of the switchgear, are open or shorted, and when an open or short circuit occurs. The secondary terminal is automatically short-circuited for CT and VT is opened to prevent burnout of CT and VT, and if abnormal conditions such as erroneous wiring, saturation and disconnection occur in the product, the CT and VT secondary terminals are If a malfunction is performed due to an open or short fault, it may cause a serious problem due to a malfunction of the protection relay of the switchgear. Therefore, this abnormal state is distinguished from an open or short accident, and at the same time, CT and VT technology are applied. The purpose of this is to allow rapid maintenance and repair by sending a warning signal to nearby workers and managers through a smart phone application, etc., when detecting an abnormal state of the device.

Other objects of the present invention will be easily understood through the description of the following embodiments.

In order to achieve the above object, according to an aspect of the present invention, the auxiliary PT (Potential Transformer) is connected to the secondary side connection of the CT (Current Transformer) provided in the switchgear to measure the voltage; A first relay for switching from an open state to a closed state with respect to the connection line of the secondary side connection portion of the CT when the voltage measured by the auxiliary PT exceeds a first set value; A secondary CT (Current Transformer) connected to a secondary side connection of a voltage transformer (VT) provided in the switchgear to measure a current; And a second relay for switching from a closed state to an open state with respect to the connection line of the secondary side connection part of the VT when the current measured by the auxiliary CT exceeds the second set value. A terminal block for switchgear with CT/VT protection device is provided.

A communication unit for performing communication with an external terminal; And an MCU controlling to transmit an alarm to a terminal determined through the communication unit when the voltage and current measured from the auxiliary PT and the auxiliary CT respectively exceed the second and second set values, respectively. .

A temperature sensor installed to sense a temperature in the switchgear; And an arc sensor installed to detect an arc in the switchgear, wherein the MCU may control to transmit detection information by the temperature sensor and the arc sensor to a predetermined terminal through the communication unit.

The auxiliary PT, the first relay, the auxiliary CT, the second relay, and the MCU are accommodated inside, and a display unit for externally displaying an operation state or data under the control of the MCU is provided on one surface, and the MCU A manipulation unit for inputting an operation signal is provided to select an operation for performing the control, and a plurality of terminal units for connecting each of the secondary side connection unit of the CT and the secondary side connection unit of the VT and connection with external devices and lines are provided. Provided, it may further include a module case for modularization.

The first set value may be 10 to 50V, and the second set value may be 0.37 to 1.5A.

According to the terminal block for a switchboard having a CT/VT protection device based on IoT technology according to the present invention, overcurrent and overvoltage phenomenon that occurs when the secondary terminals of the CT and VT, which are one of the internal components of the switchboard, are opened or short-circuited. When an open or short circuit occurs, the secondary terminal is automatically short-circuited and VT is opened to prevent burnout of CT and VT in advance, and when abnormal conditions such as erroneous wiring, saturation and disconnection occur in the product, If a malfunction is performed due to a malfunction due to an open or short circuit failure of the secondary terminal of CT and VT, it may cause a serious problem due to a malfunction of the protection relay of the switchgear. Therefore, this abnormal state is distinguished from an open or short circuit accident, and at the same time, When an abnormal condition for CT and VT is detected by applying IoT technology, a warning signal is transmitted to nearby workers and managers through a smartphone application, thereby enabling rapid maintenance and repair.

1 shows a CT secondary side open equivalent circuit in a conventional switchgear.
2 shows a VT secondary short circuit equivalent circuit in a conventional switchgear.
3 is a circuit diagram for explaining the problem of premature burnout due to opening or shorting of CT and VT secondary terminals in a conventional switchgear, showing (a) a CT steady state equivalent circuit, and (b) a CT secondary terminal open equivalent circuit. .
4 is a circuit diagram for explaining another problem of premature burnout due to opening or shorting of CT and VT secondary terminals in a conventional switchgear, including (a) a VT steady state equivalent circuit, and (b) a VT secondary terminal short circuit equivalent circuit. Show.
5 is a block diagram illustrating a terminal block for a switchgear having a CT/VT protection device based on IoT technology according to an embodiment of the present invention.
6 is a block diagram showing a main part of a terminal block for a switchgear having a CT/VT protection device based on IoT technology according to an embodiment of the present invention.
7 is a perspective view showing a module casing of a terminal block for a switchgear having a CT/VT protection device based on IoT technology according to an embodiment of the present invention.

In the present invention, various modifications may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to a specific embodiment, and should be understood as including all changes, equivalents, or substitutes included in the technical spirit and scope of the present invention, and may be modified in various other forms. It can be, and the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals are assigned to the same or corresponding components regardless of the reference numerals, and redundant descriptions thereof will be omitted.

5 is a configuration diagram showing a terminal block for a switchboard having a CT/VT protection device based on IoT technology according to an embodiment of the present invention, and FIG. 6 is a block diagram illustrating an IoT technology based CT/VT according to an embodiment of the present invention. It is a configuration diagram showing a main part of a terminal block for a switchgear provided with a VT protection device.

5 and 6, the terminal block 100 for a switchboard having a CT/VT protection device based on IoT technology according to an embodiment of the present invention includes an auxiliary PT (potential transformer) 11 and a first relay 12. ), an auxiliary CT (Current Transformer) 13 and a second relay 14 may be included.

The auxiliary PT 11 is connected to, for example, a connection line 3 to the secondary side connection 1a of a CT (Current Transformer) 1 provided in the switchboard to measure the voltage. Here, in the CT (1) and the VT (2) to be described later, the primary side is connected to the main bus line 5, and the converted secondary side is connected to the protection relay in the control box through a terminal block. The auxiliary PT 11 is a device that converts a high voltage flowing through the power system into an appropriate value, and converts a high voltage into a low voltage to be used as a voltage source for device operation.

The first relay 12 is open to the connection line 3 of the secondary side connection 1a of the CT 1 when the voltage measured by the auxiliary PT 11 exceeds the first set value. It converts from the state to the closed state. Here, the connection line 3 connected to the secondary connection 1a of the CT 1 is not limited to its name, and is directly connected to the secondary connection 1a of the CT 1 or indirectly through other devices or other lines. Any line connected to may be applicable. The first relay 12 may be configured to be directly controlled by the auxiliary PT 11, or may be configured to operate by controlling the MCU 15, which will be described later, upon receiving a detection signal from the auxiliary PT 11.

The auxiliary CT 13 is connected to, for example, a connection line 4 to a secondary side connection 2a of a voltage transformer (VT) 2 provided in the switchboard to measure the current. The auxiliary CT 13 is a device that converts a high current into an appropriate value to measure a large current flowing through the power system, and may convert a high current into a low current to be used as a current source for device operation.

When the current measured by the auxiliary CT 13 exceeds the second set value, the second relay 14 closes ( Change from close) state to open state. Here, the connection line 4 connected to the secondary connection 2a of the VT 2 is not limited to its name, and is directly connected to the secondary connection 2a of the VT 2 or indirectly through other devices or other lines. Any line connected to may be applicable. The second relay 14 may be configured to be directly controlled by the auxiliary VT 13 or may be configured to operate under the control of the MCU 15, which will be described later, upon receiving a detection signal from the auxiliary VT 13.

The terminal block 10 for a switchboard having a CT/VT protection device based on IoT technology according to an embodiment of the present invention may further include a power supply unit 21, a communication unit 16, and an MCU 15, and further, A temperature sensor 17 and an arc sensor 18 may be further included.

The power supply unit 21 converts power supplied from the outside into power required for operation, and transmits it to corresponding component parts.

The communication unit 16 is a communication module for performing communication with an external terminal, and various wireless or wired communication methods, including Wi-Fi, 3G, LTE, and 5G, may be applied. Here, the terminal may use an information processing and communication device such as a smart phone, a tablet PC, a notebook, or a PC that performs data or a specific process according to an operation of an application or a program, and enables wireless or wired communication.

When the voltage and current measured from the auxiliary PT 11 and the auxiliary CT 13 exceed each of the first and second set values, the MCU 15 transmits an alarm to a predetermined terminal through the communication unit 16. Control. Here, the terminal downloads and installs an application or program for performing the functions required in the present invention, and then, by driving such an application or program, the MCU 15 performs a predetermined process based on the authority of an administrator or a user through communication. Registration is performed accordingly. Therefore, when the voltage and current measured from the auxiliary PT 11 and the auxiliary CT 13 exceed each of the first and second set values, the MCU 15 sends a message or an alarm sound to the registered terminal. Including, it is possible to provide an alarm according to a predetermined method.

The MCU 15 may be configured to control the contact point of the first relay 12 by measuring the voltage across the internal coil of the auxiliary PT 11 to determine the presence or absence of an abnormality. Further, the MCU 15 may be configured to also control the contact point of the second relay 14 according to a current measurement value calculated by measuring the induced current of the internal coil of the auxiliary CT 13. The first relay 12 may operate in a normally open state, for example, and may perform an operation that is closed by control of the MCU 15 when an abnormal voltage occurs, and the second relay 14 is, for example, in a normally closed state. During operation, when an abnormal current occurs, an operation that is opened under the control of the MCU 15 may be performed.

The temperature sensor 17 is installed to sense the temperature in the switchboard. In addition, the arc sensor 18 is installed to detect an arc in the switchboard. Here, the arc or arc discharge detected by the arc sensor 18 is a gas insulation breakdown phenomenon that generates a current through a non-conductive medium such as air, which means a discharge phenomenon that continuously flashes between the insulating media. It can also be the cause of

The MCU 15 can control to transmit the sensing information by the temperature sensor 17 and the arc sensor 18 to a predetermined terminal registered in advance through the communication unit 16, where the sensing information is the temperature sensor 17 ), or arc generation detected by the arc sensor 18, and when the detection information of them is expressed numerically, the information is determined only when such a value exceeds a predetermined value. Can be configured to provide to. Here, the information may include an alarm.

Referring to FIGS. 5 and 7, the terminal block 10 for a power switchboard having a CT/VT protection device based on IoT technology according to the present invention may be configured to be easily installed in a switchboard or the like by modularization. For this purpose, a module case ( 23) may be further included.

The module case 23 is provided with a bracket or the like provided on the inside for fixing the components, so that the auxiliary PT 11, the first relay 12, the auxiliary CT 13, the second relay 14 and the MCU 15 are A display unit 19 that can be accommodated inside and displays operation status or data to the outside under the control of the MCU 15 may be provided on one side, for example, in the front, and the operation that the MCU 15 performs control An operation unit 22 for inputting an operation signal may be provided so as to select, and the connection of each of the secondary side connection 1a of the CT 1 and the secondary side connection 2a of the VT 2 and temperature sensor 17 ) Or the arc sensor 18, and a plurality of terminal portions 23a for connection with various external devices and lines may be provided. Here, the operation unit 22 may include a power button, a reset button, and a test button. The MCU 15 can control the operation to be turned on or off according to the pressing of the power button, and control to initialize all operations according to the pressing of the reset button. It is possible to test whether the auxiliary PT 11 and the auxiliary CT 13 perform an operation properly according to the pressing, and whether or not they receive a detection signal or the like.

The first set value, which is a reference for switching to the closed state of the first relay 12, may be 10 to 50V. In the case of CT(1), it is common to use the secondary output of 5A, such as 200/5A, 600/5A, 1000/5A, 2000/5A, etc., and the voltage is determined according to the burden rating of the CT(1). . Since P=VI, a typical CT is manufactured with 25VA or 40VA. In the case of 25VA-5A rating, the secondary side voltage does not exceed 5V, and in the case of 40VA-5A, it does not exceed 8V. Therefore, it is measured using the auxiliary PT (11), and in the case of a normal range, voltage induction higher than 10V can be determined as an accident due to the secondary side opening. In addition, in the case of the CT(1) of 40VA-1A, which is used in special cases, there may be cases where 40V is induced, so the set value can be set according to the rating of the CT(1) through the selection tap. The set value can be set to 50V.

In addition, the second set value, which is a reference for switching the second relay 14 to the open state, may be 0.37 to 1.5A. In the case of VT(2), it is classified into 50VA, 100VA, and 200VA products. In the case of 50VA, the maximum current on the secondary side is 0.25A, in the case of 100VA, the maximum current on the secondary side is 0.5A, and in the case of 200VA, the maximum current on the secondary side is 1A. 150% of the normal range, 0.37A, 0.75A, 1.5A can be set as a set value according to the rating of the installed VT(1), and if a current of more than 150% is induced, the VT(2) short circuit It can be judged as an accident caused by.

According to the present invention, in order to prevent breakdown and burnout due to the opening or short circuit of the secondary terminal of the CT (1) and VT (2), the opening or short circuit of the secondary terminal of the CT (1) and VT (2) The situation is monitored at all times, and when an abnormality occurs, the secondary terminal is automatically shorted or opened. CT(1) and VT(2) detects overcurrent and overvoltage that occur when the secondary terminal is open or shorted, and automatically shorts the secondary terminal in case of an open or short circuit in the case of CT(1), VT(2) In this case, open it to prevent burnout of CT(1) and VT(2).

In this way, if the CT(1) and VT(2) products are in an abnormal condition such as erroneous wiring, saturation and disconnection, the CT(1) and VT(2) secondary terminals are mistaken for open or short circuit failure There is a possibility of performing an erroneous operation, and since such a malfunction may cause a serious problem due to a malfunction of the protection relay of the switchgear, such an abnormal state can be distinguished from an open or short circuit accident. In addition, opening and shorting of the secondary terminals of CT(1) and VT(2) can cause product failure and burnout. In particular, in the case of a short circuit on the secondary side of VT(2), the switchboard is converted into an accident due to a ground fault on the secondary side. There is a possibility of causing a huge electrical disaster in Accordingly, in the present invention, when an abnormal state of the CT (1) and VT (2) is detected by applying IoT technology, a warning can be transmitted to nearby workers and managers through the terminal, so that rapid maintenance and repair can be performed. .

Although the present invention has been described with reference to the accompanying drawings, various modifications and variations can be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined by the claims and equivalents as well as the claims to be described later.

1: CT 1a: secondary side connection
2: VT 2a: secondary side connection
3: connection line 4: connection line
5: main bus 11: auxiliary PT
12: first relay 13: auxiliary CT
14: second relay 15: MCU
16: communication unit 17: temperature sensor
18: arc sensor 19: display unit
21: power supply unit 22: operation unit
23: module casing 23a: terminal
23b: display

Claims (5)

A secondary PT (potential transformer) connected to the secondary side connection of a CT (Current Transformer) provided in the switchboard to measure voltage;
A first relay for switching from an open state to a closed state with respect to the connection line of the secondary side connection portion of the CT when the voltage measured by the auxiliary PT exceeds a first set value;
A secondary CT (Current Transformer) connected to a secondary side connection of a voltage transformer (VT) provided in the switchgear to measure a current; And
A second relay for switching from a closed state to an open state with respect to the connection line of the secondary side connection portion of the VT when the current measured by the auxiliary CT exceeds a second set value;
Including, a terminal block for a switchboard having a CT/VT protection device based on IoT technology. The method according to claim 1,
A communication unit for performing communication with an external terminal; And
When the voltage and current measured from the auxiliary PT and the auxiliary CT exceed each of the first and second set values, an MCU controlling to transmit an alarm to a predetermined terminal through the communication unit;
A terminal block for a switchboard having a CT/VT protection device based on IoT technology further comprising a. The method according to claim 2,
A temperature sensor installed to sense a temperature in the switchgear; And
Further comprising; an arc sensor installed to detect an arc in the switchgear,
The MCU,
A terminal block for a switchboard having a CT/VT protection device based on IoT technology for controlling to transmit detection information by the temperature sensor and the arc sensor to a predetermined terminal through the communication unit. The method according to claim 2,
The auxiliary PT, the first relay, the auxiliary CT, the second relay, and the MCU are accommodated inside, and a display unit for externally displaying an operation state or data under the control of the MCU is provided on one surface, and the MCU A manipulation unit for inputting an operation signal is provided to select an operation to perform the control, and a plurality of terminal units for connecting each of the secondary side connection unit of the CT and the secondary side connection unit of the VT and connection with external devices and lines are provided. A terminal block for switchgear provided with a CT/VT protection device based on IoT technology, further including a module case for modularization. The method according to any one of claims 1 to 4,
The first set value is,
10~50V,
The second set value is,
Terminal block for switchgear with CT/VT protection device based on IoT technology, 0.37~1.5A.

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