KR100692518B1 - Air circuit breaker - Google Patents

Abstract

Air circuit breakers are disclosed. The air circuit breaker includes an overcurrent protection portion, and a ground fault current protection portion. The overcurrent protection unit blocks the current supplied to the load when the current of the three-phase power supplied to the load is greater than or equal to the predetermined load current value, and the ground current protection unit has a predetermined ground line current (leakage current) flowing from the neutral point of the three-phase power supply to the ground point. If the ground current value is equal to or greater than the predetermined ground fault protection operation. By incorporating a ground fault current protection unit in the air circuit breaker that measures the leakage current flowing through the ground line and performs the ground fault protection operation, it is possible to effectively perform overcurrent protection as well as accurate ground current protection using only the individual air circuit breakers.

Air Circuit Breakers, Current Transformers, Overcurrent Relays, Ground Protection Relays

Description

Air circuit breaker

1 is a schematic block diagram of an air circuit breaker using a CT residual circuit.

2 is a schematic block diagram of an air circuit breaker according to a first embodiment of the present invention.

3 is a schematic block diagram of an air circuit breaker according to a second embodiment of the present invention.

4 is a table showing an example of a setting range of a current value on an external terminal set in the air circuit breaker of FIG. 3;

 TECHNICAL FIELD The present invention relates to power equipment and more particularly to air circuit breakers.

Breakers are load switching devices used in electrical circuits. It is a device that can be opened and closed even when abnormally large current flows due to a fault such as short-circuit as well as short-circuit when there is no fault in the converter.

The role of the circuit breaker installed in the transmission end or the power receiving end of the transmission line is very important. In particular, when the voltage of the power line is high and the capacity of the power supply is large, the current at the time of failure is very large, so the role of the circuit breaker that can be surely opened and closed is urgently required.

In order to cut off the electric current, the fixed contactor and the movable contactor are installed, and these are normally kept in close contact with each other, and the current flows. When a large current flows due to a fault somewhere in the line, the moving part is removed from the fixing part as soon as possible to disconnect the current.

At this time, an arc always occurs, and the first problem is to turn off the arc quickly, which is why placing two contacts in insulating oil, placing them in high-pressure air or gas, and expanding the arc by applying a magnetic field to the arc. There are inlet, air, gas and magnetic breakers respectively.

An air circuit breaker (ACB) is an electrical switchgear that uses air to turn off the arc. The air circuit breaker places two contacts in the air, separates the contacts, while blowing them into the air to turn off the arc.

According to the provisions of Article 45, paragraph 2 of the Electrical Equipment Technology, low-voltage converters (except those in power plants and substations and their equivalents) having a working voltage of 400 V or more, which are coupled by a special high-voltage converter or high-voltage converter by a transformer, A device is to be provided for automatically disconnecting the converter when it occurs.

In general, the ground fault current (Ig) at the first ground fault of the 440V low-voltage converter is as follows.

Ig = 3I0 = 3 X E / (3 X Rg) = E / (R2 + RS3) = 254 / (5 + 10) = 16.9 [A]

[E: Earth voltage 254V, R2: Class 2 grounding resistor 5Ω, RS3: Special type 3 grounding resistor 10Ω]

However, this value is a ground current under conditions that do not consider the ground fault resistance, the distance to the ground fault, the impedance of the power supply side and the line, so it is actually smaller than this value, but at least 16.9A considering the specified ground resistance. Ground fault prevention method which can operate at should be used.

At present, the ground fault current detection method used in the air circuit breaker has adopted a residual circuit use method in most domestic manufacturers.

1 is a schematic block diagram of a CT circuit breaker type air circuit breaker.

In FIG. 1, the air circuit breaker 100 is connected to the low pressure side of the transformer 200 (Tr). Inside the air circuit breaker 100, a current transformer 110 (CT), a circuit breaker 120 (CB), an overcurrent relay 130 (OCR), and a ground fault protection relay 140 (OCGR) are shown.

In FIG. 1, the tap value of the ground fault protection relay 140 built in the air circuit breaker 100 has a minimum of 10% (0.1 tap) of the CT ratio or the frame current (rated current).

Therefore, the ground fault protection relay 110 operates when the ground current when the frame current is 1000 A is 100 A or more. However, since the ground current of the 440V low voltage converter is 16.9A, which is not more than 100A, as described above, it is difficult to block the ground current with the ground protection relay 140 built in the air circuit breaker 100.

 The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide an air circuit breaker capable of performing overcurrent protection as well as accurate ground fault current protection using only the air circuit breaker without a separate device.

In order to achieve the above object, the air circuit breaker according to the present invention includes an overcurrent protection unit, and a ground fault current protection unit. The overcurrent protection unit cuts off the current supplied to the load when the current of the three-phase power supplied to the load is greater than or equal to the predetermined load current value, and the ground current protection unit stores a ground fault current flowing from the neutral point of the three-phase power supply to the ground point. In case of abnormality, a predetermined ground fault protection operation is performed.

By incorporating a ground fault current protection unit into the air circuit breaker that measures the current flowing through the ground line and performs the ground fault protection operation, it is possible to perform overcurrent protection as well as accurate ground current protection using only the individual air circuit breakers.

Ground fault protection may be to cut off the current to the load or to output a warning signal. As a result, when excessive ground current occurs, the current supply to the load is not unconditionally interrupted, but the current situation is notified to the user, so that the user can perform a more effective response in a given situation.

The ground fault protection operation may be performed when the ground line current is kept above the predetermined ground current value for a predetermined delay time or more. This configuration solves the problem that the current supply to the load is frequently interrupted due to the ground current above the set value which occurs only for a very short moment.

If the ground line current is greater than or equal to the predetermined instantaneous current value, the ground fault protection operation may be performed immediately even if the predetermined delay time has not elapsed. Such a configuration is intended to prevent such damage even if the ground current exceeds the set value instantaneously, which can cause a great damage to the system if the extent is too large.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a schematic block diagram of an air circuit breaker according to a first embodiment of the present invention.

1 and 2, the ground fault protection relay 140 detects the current in the current transformer (CT) 110 on the current supply line supplied to the load, but in Figure 2 the low pressure of the transformer (Tr) 400 It can be seen that the current is detected in the current transformer CT ₂ 312 on the side neutral ground line. In the present invention, the current transformer CT ₁ is used for overload and short circuit protection, and the current transformer CT ₂ is used for ground fault protection.

In this configuration, an external auxiliary CT (about 100 / 5A) is installed on the two ground-side wires and connected to the ground fault protection relay (OCGR or NGR (Neutral ground relay); 350) built in the air circuit breaker 300. The ground fault relay in accordance with Article 45 (2) of the Electrical Equipment Technical Standards can be configured only by connecting to the NGR terminal built in the air circuit breaker 300 without installing a separate ground relay in the Y neutral point grounding system of the low voltage line. Will be.

That is, in the present invention by performing a ground fault protection operation by measuring the current flowing through the ground line in the ground fault protection relay 350 built in the air circuit breaker 300, overcurrent protection as well as accurate ground fault current using only the individual air circuit breaker 300 Protection can also be performed.

In addition, when the overcurrent protection relay 330 and the ground protection relay 350 for measuring the leakage current flowing through the ground line are built in one air circuit breaker 330, the overcurrent protection relay 330 and the ground protection relay 350 are separately included. It is possible to implement a simpler and more efficient air-blocking system than if it were implemented with a device. This is because the role and function of the two relays 330 and 350 in the air circuit breaker can be designed in advance. As a result, the air circuit breaker 300 can be used in various ways according to the installation environment or the user's personality.

This effect is more prominent when the air circuit breaker is implemented using a digital system. In this case, the air circuit breaker may be input in various ways by inputting various settings according to the personality of the system environment or the system administrator to the control unit (not shown) of the air circuit breaker. 330 can be used.

3 is a schematic block diagram of an air circuit breaker according to a second embodiment of the present invention.

The air circuit breaker 500 of FIG. 3 includes a plurality of current transformers 510 coupled to a three-phase power current line supplied to a load (not shown), and a connection from a current transformer (not shown) coupled to a neutral ground line of the three-phase power source. And external connection terminals NCT_K and NCT_L 512.

In the present embodiment, only the terminal 512 for receiving the signal detected from the current transformer (not shown) coupled to the neutral ground line is included in the air circuit breaker 500, but in another embodiment, the current transformer (not shown) itself is also an air circuit breaker. It may be included in the configuration of 500.

The air circuit breaker 500 may further include an analog input converter 580, a controller (MPU) 540, a relay 530, and a magnetic holding trigger 520, a display unit 550, a user input unit 560, and a warning. It further includes other components such as the signal output unit 590, the power supply unit 570.

The analog input converter 580 converts the detected current input to be suitable for use by the controller. It is mainly used for current level conversion, current input to voltage input, and filtering of surge current.

 The controller 540 performs an operation and a storage function, and controls other components in the air circuit breaker 500. To this end, it also performs additional input / output or analog-to-digital conversion functions.

The user input unit 560 sets the use environment of the air circuit breaker 500 through the user input, thereby enabling the use of the more specialized air circuit breaker 500. The display unit 550 outputs the state of the air circuit breaker 500, an operation process, a user input situation, and a set environment to the user.

The warning signal output unit 590 outputs a warning signal when a preset warning signal output condition is satisfied in the control unit 540. The warning signal output unit 590 may be implemented as a speaker emitting warning sound or a light emitting device emitting warning light. The relay 530 and the trip coil MHT block a current supply to the load according to the instruction of the controller.

The air circuit breaker 500 may perform an overcurrent protection operation and a ground fault protection operation according to a condition preset by a user. In the case of a ground fault protection operation, when a ground fault occurs, the controller 540 analyzes a current value detected by the current transformer 510 or the external connection terminal 512 and performs a preset protection action when a preset condition is met. The preset protection operation may be to cut off the current supplied to the load or to output a warning signal.

As such, when excessive ground current occurs, the current supply to the load is not unconditionally interrupted, but the current situation is notified to the user, so that the user can perform a more effective response in a given situation.

 Of course, the control unit 540 may be set to simultaneously perform the interruption of the current supply and the output of the warning signal. In this case, the air circuit breaker 500 simultaneously performs the interruption of the current supply and the output of the warning signal.

In addition, the ground fault protection operation may be set to be performed only when the ground line current is kept above the predetermined ground fault current value for a predetermined delay time or more. This configuration solves the problem that the current supply to the load is frequently interrupted due to the ground current above the set value which occurs only for a very short moment. For example, the delay time may be set in increments of 0.1 seconds between 0.1 seconds and 1.5 seconds.

When the ground line current is greater than or equal to the predetermined instantaneous current value, the ground fault protection operation may be performed immediately even if the predetermined delay time has not elapsed. For example, when the detection value of the external terminal 512 is 2A or more, the ground fault protection operation may be performed within 0.1 seconds. Such a configuration is intended to prevent such a situation that even if the ground current exceeds the set value instantaneously, it may cause a great damage to the system when the degree of exceedance is very large.

The controller 540 may preset the current value condition detected by the external terminal 512 for performing the ground fault protection operation according to the system environment.

4 is a table illustrating an example of a setting range of a current value on an external terminal set in the air circuit breaker of FIG. 3.

It can be seen from the table that the current detected at the external terminal 512 is set in 14 steps, and the rating of NGR is 30A: 1.5A in 14 steps.

The present invention incorporates a ground fault current protection unit in the air circuit breaker that measures the current flowing through the ground wire to perform the ground fault protection operation, thereby effectively performing overcurrent protection as well as accurate ground current protection using only the individual air circuit breakers.

In addition, the present invention not only stops the current supply to the load when excessive ground current occurs, but also informs the user of the current situation, thereby allowing the user to perform a more effective response in a given situation.

In addition, the present invention solves the problem that the current supply to the load is frequently interrupted due to a ground fault current of more than a set value occurring only for a very short moment, even if the ground current exceeds the set value momentarily. If the severity is very large, it can be very damaging to the system, so it can be prevented.

Although the present invention has been described in terms of some preferred embodiments, the scope of the present invention should not be limited by the described embodiments, but should be limited to modifications or improvements of the above embodiments supported by the appended claims.

Claims (5)

An overcurrent protection unit for blocking the current supplied to the load when the current of the three-phase power supplied to the load is equal to or greater than a predetermined load current value; And And a ground fault current protection unit for performing a predetermined ground fault protection operation when the ground line current flowing from the neutral point of the three-phase power source to the ground point is equal to or greater than a predetermined ground fault current value. The method of claim 1, The ground fault protection operation of the air circuit breaker, characterized in that to cut off the current supplied to the load. The method according to claim 1 or 2, And the ground fault protection operation outputs a warning signal. The method according to any one of claims 1 to 3, And wherein the ground fault protection operation is performed when the ground line current is maintained above the predetermined ground current value for a predetermined delay time or more. The method of claim 4, wherein And if the ground line current is equal to or greater than a predetermined instantaneous current value, the ground fault protection operation is performed immediately even if the predetermined delay time has not elapsed.

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