KR102247177B1 - Diagnosis method for potential transformer of switching device - Google Patents

Abstract

The present invention relates to a method for diagnosing a transformer for a ground switch to diagnose whether the transformer is normal before applying a voltage to the transformer of an automated ground switch.
The method of diagnosing a transformer for a ground switch according to the present invention includes a step of confirming a connection position (S110) for checking a connection position of the transformer 20 for a ground switch, and a step opening a line electrically separating the transformer 20 from the line. (S120) and a secondary-side connector separation step (S130) of separating the secondary-side connector 21 of the transformer 20, and a power supply is connected to the transformer diagnosis device 30, and the transformer diagnosis device 30 is A diagnostic device connection step (S140) connected to the transformer 20, a power supply step (S150) of applying power to the transformer 20 from the transformer diagnostic device 30, and the transformer diagnostic device 30 The voltage and current determination step (S160) of comparing the measured current value flowing through with the reference current value set as the upper limit of the no-load charging current, and the measured current value is less than the reference current value in the voltage and current determination step (S160). If yes, it includes a normal determination step (S171) of determining that the transformer 20 is normal.

Description

Diagnosis method of transformer for ground switch {DIAGNOSIS METHOD FOR POTENTIAL TRANSFORMER OF SWITCHING DEVICE}

The present invention relates to a method for diagnosing a transformer for a ground switch, in which the transformer is diagnosed as to whether the transformer is normal before applying a voltage to the transformer of the automated ground switch.

When current is applied to the ground switch for automation and pressurized, the Potential Transformer (PT) is pressurized at the same time.

Since there is no diagnostic procedure or equipment for the transformer of the ground switch, accidents or breakdowns of the transformer frequently occur.

At this time, if there is a problem with the transformer, there is a concern that a single-line ground fault occurs simultaneously with the pressurization, causing an instantaneous power failure, or a temporary power failure due to ripples to the ground switch.

In addition, due to the transformer accident, the worker is exposed to a safety accident, so that the worker's safety is not sufficiently secured.

On the other hand, the following prior art document discloses a technology related to a'built-in integrated control communication device for a distribution system switchgear'.

KR 20-2011-0006841 U (2011.07.07)

The present invention was invented to solve the above problems, and a diagnostic method for a transformer for a ground switch capable of determining the presence or absence of an abnormality in the transformer by diagnosing the state of the transformer for a ground switch before applying a voltage to the ground switch There is a purpose to provide.

A method for diagnosing a transformer for a ground switch according to the present invention for achieving the above object includes a step of confirming a connection position of confirming a connection position of a transformer for a ground switch, and a step of opening a line electrically separating the transformer from the line. , A secondary connector separating step of separating the secondary connector of the transformer, a diagnostic device connecting step of connecting a power source to a transformer diagnostic device and connecting the transformer diagnostic device to the transformer, and from the transformer diagnostic device to the transformer A power application step of applying power, a voltage and current determination step of comparing a measured current value flowing through the transformer diagnostic device with a reference current value set as an upper limit of a no-load charging current, and the measured current value in the voltage and current determination step And a normal determination step of determining that the transformer is normal if it is less than the reference current value.

In the step of determining the location of the connection, according to the type of the transformer, it is characterized in that it is checked whether the transformer is connected to either a common bus or a line.

When the transformer is connected to the common bus, the step of opening the line is characterized in that the entire terminal is opened.

When the transformer is connected to the line, the step of opening the line is characterized in that an insulating cap is installed after separating the primary elbow of the transformer.

In the step of connecting the diagnostic device, the transformer diagnostic device is connected to a ground transformer.

The transformer diagnosis device is characterized in that it is connected to a secondary connector of the transformer.

In the step of connecting the diagnostic device, the transformer diagnostic device is connected to a mobile generator.

The transformer diagnosis device is characterized in that it is connected to a secondary connector of the transformer.

The power applying step is characterized in that power is output from the transformer diagnosis device to the transformer by increasing a voltage from the transformer diagnosis device at a predetermined speed.

The power applying step is characterized in that the voltage is increased from 0V to 220V at a predetermined rate, and power is output from the transformer diagnosis device to the transformer.

In the voltage and current determination step, when a current within a no-load charging current range flows through the transformer diagnosis device, it is determined that the transformer is normal.

The no-load charging current is characterized in that 0.1A to 0.2A.

In the voltage and current determination step, when it is determined that a short-circuit current exceeding a reference current value flows in the transformer diagnosis apparatus, it is determined that an abnormality has occurred in the transformer.

When a power of 10V to 20V is applied to the transformer diagnosis device, a current of 40A to 50A is measured.

According to the method for diagnosing a transformer for a ground switch of the present invention having the above configuration, it is determined whether the transformer is normal before supplying power to the ground switch, so that power is supplied to the ground switch only when the transformer is normal. .

If the transformer is not normal, power is not applied to the ground switch, thereby ensuring the safety of the operator.

1 is a flow chart showing a method for diagnosing a transformer for a ground switch according to the present invention.
2A to 2C are schematic diagrams showing a diagnosis process when a transformer is connected to a common bus, a wiring diagram of a ground switch and a transformer (FIG. 2A), a range in which power is applied in the power application step (FIG. 2B), and 1 of the transformer. A photograph of the car-side and secondary-side connectors (Fig. 2c).
3A to 3C are schematic diagrams showing a diagnosis process when a transformer is connected to a line, a connection diagram of a ground switch and a transformer (FIG. 3A), a range in which power is applied in the power application stage (FIG. 3B), and a secondary side of the transformer. A photograph of the circular connector (Fig. 3C).
4 is a schematic diagram showing a process of diagnosis using an external power source.
5 is a schematic diagram showing a diagnosis process using a mobile generator.

Hereinafter, a method for diagnosing a transformer for a ground switch according to the present invention will be described in detail with reference to the accompanying drawings.

The method of diagnosing a transformer for a ground switch according to the present invention includes a step of confirming a connection position (S110) for checking a connection position of the transformer 20 for a ground switch, and a step opening a line electrically separating the transformer 20 from the line. (S120) and a secondary-side connector separation step (S130) of separating the secondary-side connector 21 of the transformer 20, and a power supply is connected to the transformer diagnosis device 30, and the transformer diagnosis device 30 is A diagnostic device connection step (S140) connected to the transformer 20, a power supply step (S150) of applying power to the transformer 20 from the transformer diagnostic device 30, and the transformer diagnostic device 30 The voltage and current determination step (S160) of comparing the measured current value flowing through with the reference current value set as the upper limit of the no-load charging current, and the measured current value is less than the reference current value in the voltage and current determination step (S160). If yes, it includes a normal determination step (S171) of determining that the transformer 20 is normal.

In the method for diagnosing a transformer for a ground switch according to the present invention, a current value of the power flowing through the transformer diagnosis device 30 is connected by connecting the transformer diagnosis device 30 between the power source and the transformer 20 installed in the ground switch 10. By monitoring, it is determined whether the transformer 20 is normal.

In the step of checking the connection position (S110), the connection position of the transformer 20 for the ground switch is checked.

In the step of confirming the wiring location (S110), it is checked whether the transformer 20 is connected according to the type of the transformer 20. That is, depending on the type of the transformer 20, it is checked whether the transformer 20 is connected to one of the common bus line B and the line L1, L2, L3, and L4.

For example, it is checked whether the transformer 20 applied to the new ground switch is connected to the common bus (B) side (see Fig. 2A), and the transformer 20 applied to the old ground switch is a line (L1) (L2). Check whether the connection is made to the (L3) (L4) side (refer to Fig. 3A).

In the step of opening the line (S120), after checking the state of the oblique line, the transformer 20 and the line are electrically separated.

In the line opening step (S120), if the transformer 20 is connected to the common bus (B) side of the ground switch 10, all terminals are opened.

Alternatively, if the transformer 20 is connected to the line (L1) (L2) (L3) (L4) side, the insulating cap 25 after separating the transformer primary elbow 24 of the ground switch 10 By installing (see FIG. 3B), the elbow 24 is blocked from being connected to the transformer 20.

In the step of separating the secondary connector (S130), the secondary connector 21 of the transformer 20 is separated. The secondary connector 21 of the transformer 20 is separated so that the transformer diagnostic device 30 can be connected to the secondary connector 21 afterwards.

In the diagnostic device connection step (S140), power is connected to the transformer diagnostic device 30, and the transformer diagnostic device 30 is connected to the transformer.

The transformer diagnosis device 30 receives power from a power source and supplies power to the device to be diagnosed. The transformer diagnosis device 30 supplies power to the device to be diagnosed while gradually increasing the voltage from 0V to a target voltage. In the present invention, the device to be diagnosed becomes the transformer 20.

In the diagnostic device connection step (S140), power for diagnosis should be supplied. If there is a ground transformer 40 nearby, the ground transformer 40 is connected to the transformer diagnostic device 30, and the ground transformer ( 40).

On the other hand, when there is no equipment capable of supplying power such as the ground transformer 40 in the vicinity, the transformer diagnostic device 30 is connected to the mobile generator 50 to receive power from the mobile generator 50.

In addition, the transformer diagnosis device 30 is connected to the transformer 20. At this time, the transformer diagnosis device 30 disconnects the secondary circular connector of the transformer 20 and connects it to the secondary side of the transformer 20.

In the power application step (S150), power is applied to the transformer 20 from the transformer diagnostic device 30.

At this time, the voltage of the power output from the transformer diagnosis device 30 increases the voltage at a pre-delivered rate so that the power is output. That is, the voltage output from the transformer diagnosis device 30 does not increase the voltage of the power output as the target voltage within a short time and outputs it, but gradually increases the voltage so that the power is output. In FIGS. 2B and 3B, a range to which power is applied according to the type of the ground switch 10 is shown by a dotted line marked with'P', respectively.

In the power application step (S150), the voltage is gradually increased from a state in which power is not supplied (0V) to a target voltage (for example, 220V) at a predetermined speed, so that power is output from the transformer diagnosis device 30. do.

For example, while gradually rotating the operation knob 31 installed in the transformer diagnosis device 30, the power is gradually increased to 220V from the state in which the power is not supplied so that the power is output.

In the voltage and current determination step (S160), it is determined whether the transformer 20 is normal based on the voltage and current of the power output from the transformer diagnostic device 30. In particular, in the voltage and current determination step (S160), it is determined whether the transformer 20 is normal by focusing on the current value rather than the voltage value. The voltage and current determination step (S160) determines whether the voltage and current flowing through the transformer 20 are within a normal range.

In particular, the voltage and current determination step (S160) determines whether the transformer 20 is normal based on a current value of the power flowing through the transformer 20. That is, in the voltage and current determination step (S160), the measured current value as flowing through the transformer 20 is compared with a reference current value. Here, the reference current value may be set as an upper limit of the no-load charging current.

After the voltage and current determination step S160, either a normal determination step S171 or an abnormality determination step S172 is selectively performed according to the power voltage and current flowing through the transformer 20.

In the normal determination step (S171), when the current (measured current value) flowing through the transformer diagnostic device 30 in the voltage and current determination step (S160) flows within the range of the no-load charging current, it is determined that the transformer 20 is normal. do.

When power is applied to the transformer 20, if the transformer 20 is normal, while the voltage reaches the target voltage (220V), a current of about 0.1A to 0.2A, which is a current corresponding to the no-load charging current, is Flows.

In the abnormality determination step S172, when a current equal to or greater than a preset current flows in the transformer diagnostic device 30 in the voltage and current determination step S160, it is determined that the transformer 20 is abnormal. When the transformer 20 is in an abnormal state, a short-circuit current equal to or greater than a reference current value, for example, a no-load charging current, flows from the transformer diagnostic device 30, and it is determined that the transformer 20 is in an abnormal state.

For example, when an abnormality occurs in the transformer 20, a large current of 40A to 50A flows due to a short-circuit current even though power is applied to the transformer diagnostic device 30 to increase the voltage to about 10V to 20V.

Using this, in the voltage and current determination step (S160), when an overcurrent greater than a reference current value flows through the transformer diagnostic device 30, it is determined that an abnormality has occurred in the transformer 20.

10: ground switch
20: transformer
21: secondary terminal
24: elbow
25: cap
30: Transformer diagnosis device
31: operation knob
40: ground transformer
50: mobile generator
B: Common bus
L1, L2, L3, L4: Line
S110: Step of checking the wiring location
S120: track opening stage
S130: Step of disconnecting the secondary connector
S140: Steps to connect the diagnostic device
S150: power supply step
S160: voltage and current determination step
S171: normal determination step
S172: abnormality determination step

Claims (14)

The step of confirming the wiring location to check the wiring location of the transformer for ground switch, and
After checking the state of the oblique line, a line opening step of electrically separating the transformer from the line,
A secondary connector separating step of separating the secondary connector of the transformer so that the transformer diagnostic device is connected,
A diagnostic device connection step of connecting a power source to the transformer diagnostic device and connecting the transformer diagnostic device to the transformer,
A power applying step of applying power to the transformer from the transformer diagnostic device,
A voltage and current determination step of comparing a measured current value flowing through the transformer diagnostic device with a reference current value set as an upper limit of a no-load charging current,
In the voltage and current determination step, if the measured current value is less than the reference current value, a normal determination step of determining that the transformer is normal,
In the step of checking the location of the connection, according to the type of the transformer, it is checked whether the transformer is connected to either of the common bus line and the line,
When the transformer is connected to the common bus, the line opening step opens the entire terminal,
When the transformer is connected to the line, in the step of opening the line, an insulating cap is installed after separating the elbow on the primary side of the transformer,
When a current within the upper limit of the no-load charging current flows through the transformer diagnosis device in the voltage and current determination step, it is determined that the transformer is normal. delete delete delete The method of claim 1,
The diagnostic method of a transformer for a ground switch, characterized in that in the step of connecting the diagnostic device, the transformer diagnostic device is connected to a ground transformer. The method of claim 5,
The transformer diagnostic device is a diagnostic method of a transformer for a ground switch, characterized in that connected to the secondary connector of the transformer. The method of claim 1,
In the step of connecting the diagnostic device, the transformer diagnostic device is connected to a mobile generator. The method of claim 7,
The transformer diagnostic device is a diagnostic method of a transformer for a ground switch, characterized in that connected to the secondary connector of the transformer. The method of claim 1,
In the step of applying power, power is output from the transformer diagnosis device to the transformer by increasing a voltage from the transformer diagnosis device at a predetermined speed. The method of claim 9,
In the step of applying the power, the voltage is increased from 0V to 220V at a predetermined rate, and power is output from the transformer diagnosis device to the transformer. delete The method of claim 1,
The method for diagnosing a transformer for a ground switch, characterized in that the upper limit of the no-load charging current is 0.1A to 0.2A. The method of claim 1,
When it is determined that a short-circuit current exceeding a reference current value flows in the transformer diagnosis device in the voltage and current determination step, it is determined that an abnormality has occurred in the transformer. The method of claim 13,
When a power of 10V to 20V is applied to the transformer diagnostic device, a current of 40A to 50A is measured.

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