JP5661231B2 - Clamp meter and DC ground fault circuit search method - Google Patents

Description

  The present invention relates to a clamp meter and a DC ground fault line search method, and more particularly, to a clamp meter and a DC ground fault line search method suitable for specifying a branch line of a DC circuit where a ground fault has occurred.

The P pole side of the _second branch line 2 ₂ branched from the main line 1 of the DC circuit as a principle for specifying the branch line (hereinafter referred to as “ground fault circuit”) of the DC circuit where the ground fault has occurred. for the case where Oite ground fault occurs as shown in FIG. 8, a closed circuit that come back to the DC power source 1 DC ground fault current I _g is through the ground and DC ground fault detection relay 4 from the earth絡点is by utilizing the fact that established, detects a DC ground fault current I _g by the first through third first to third current transformer 7 _{1-7 3} installed respectively in the branch lines 2 ₁ to 2 ₃ Thus, it is known that accident detection information is sent to the DC ground fault detection device 6.

Further, as the DC ground fault detector 6 converts the DC ground fault current I _g was detected by the first to third current transformer 7 _{1-7 3} to the AC signal, by using the converted AC signal ground An AC conversion type that identifies a line is known.
When such an AC conversion type DC ground fault detection device 6 starts to operate based on the make contact signal of the DC ground fault detection relay 4, it disconnects the contact of the DC ground fault detection relay 4 and is electronically variable by a transistor. An AC voltage is generated by controlling the resistance with a sine wave having a predetermined frequency and applied to the main line 1. The first to third current transformer 7 _1-7 ground fault current in the AC ground fault current i _g detected by ₃ i _r and earth capacitance current i _c (current flowing through the earth capacitance) Since both are included, synchronous rectification processing is performed using the fact that the phase difference between the ground fault current i _r and the ground capacitance current i _c is 90 °, and the ground capacitance current i _c is removed. and extracting only ground-fault current i _r and (for example, Tenparu industrial DC power K.K. alley fault current cellular converter (see DSR-D) and DC power alley絡点portable detector (DSP-D)).

In Patent Document 1 below, a main line having a DC power supply and a plurality of lines branched from the main line are provided in order to accurately and reliably identify the line in which the ground fault has occurred by simple means. For a DC control power supply line provided with a relay for detecting a ground fault in any of these lines in the main line, and for identifying the line in which the ground fault has occurred, Alternatively, a DC ground fault line discriminating device having a diode as means for lowering a predetermined voltage inserted in the negative electrode side electric circuit is disclosed.
Further, in Patent Document 2 below, in order to provide an inexpensive DC power supply line ground fault detection line that can detect a DC ground fault location without stopping power supply to the DC load, a direct current power source is connected via a branch line. A DC ground fault detector that detects the ground fault of the branch line of the DC power supply line that supplies DC power to the DC load is provided between the outputs of the DC power supply. In the middle of at least the positive line of each branch line, a small resistance line consisting of a diode and a short-circuiting switch line that short-circuits the small resistance line during ground fault measurement are connected in parallel. It is disclosed that the parallel lines are connected in series.
JP 2006-60893 A JP-A-6-113442

However, in the above-described AC conversion type DC ground fault detection device, an AC voltage is generated by controlling an electronic variable resistance, or a ground rectification process is performed to remove the ground capacitance current _ic . For this reason, even a portable device is large and heavy, there is a demand for a smaller and lighter device.
In addition, there is a demand for specifying a ground fault line more simply without using the above-described AC conversion type DC ground fault detection apparatus.

  An object of the present invention is to provide a clamp meter that can be reduced in size and weight and a DC ground fault line search method that can easily identify a ground fault line.

The clamp meter of the present invention is a clamp used for specifying a branch line where a ground fault has occurred among a plurality of branch lines branched from a main line (1) of a DC electric circuit via a terminal block (8). A meter (10) having a second terminal (12 ₂ ) attached to the ground terminal of the terminal block and a first terminal (12 ₁ ) connected to any branch of the plurality of branch lines of the terminal block It is attached to the pole terminal on the pole side where the ground fault has occurred, and an AC voltage is applied to the pole side of the plurality of branch lines on which the ground fault has occurred via the first and second terminals. AC power supply (16) for said plurality of AC ground fault current flowing through each branch line (i _g) the clamp-type current transformer for detecting (15), detected by said clamp-type current transformer The electrostatic capacitance contained in the AC ground fault current A current (i _c) earth capacitance current removing means for removing (18, 19, 20), with which is connected to both ends of the clamp-type current transformer provided winding (21), ground fault current measuring unit for measuring a current value of the ground fault current (i _r) contained in the AC ground fault current detected by said clamp-type current transformer (22), the plurality of branch lines Current value of the AC ground fault current detected by the clamp-type current transformer at a branch line to which the AC voltage is applied from the AC power source, and the ground measured by the ground fault current measuring unit. And a display unit (23) for displaying the current value of the leakage current, one end of the AC power supply being connected to the first terminal via a coupling capacitor (17), and the AC power supply The other end of the terminal is connected to the second terminal The grounded electrostatic current removal means includes a tapped winding (20) provided in the clamp-type current transformer, and a switch (19) for switching the tap of the tapped winding; A variable coil (18) provided between the switch and the second terminal; one end of the tapped winding is connected to the first terminal and switched by the switch; The tap of the tapped winding is connected to the second terminal via the switch and the variable coil.
Here, when the other AC voltage is used in combination with the AC power supply device for applying to the pole side where the ground fault has occurred in the plurality of branch lines, the other power sent from the AC power supply device is used. There may be further provided means for outputting the AC voltage from the AC power source in synchronization with the AC voltage.

The DC ground fault line searching method according to the present invention is characterized in that a branch line where a ground fault has occurred among a plurality of branch lines branched from a main line (1) of a DC circuit via a terminal block (8) is described. A method for searching for a DC ground fault line using the clamp meter (10) of the present invention, wherein the second terminal (12 ₂ ) is attached to the ground terminal of the terminal block and the first terminal (12 ₁ ) is attached. The first and second AC power supplies (16) included in the clamp meter are attached to the pole terminal on the pole side where the ground fault has occurred in any branch line of the plurality of branch lines of the terminal block. An AC voltage is applied to the pole side of the plurality of branch lines where the ground fault has occurred via two terminals, and the arbitrary branch line is used by using a clamp-type current transformer (15) provided in the clamp meter. AC ground fault current flowing in the (i _g) to detect The removal of the earth capacitance current by earth capacitance current removing means (18, 19, 20) are included in the AC ground fault current which is the detected (i _c) that clamp meter comprises, the clamp meter display unit but which measures the current value of the ground fault current by ground current measuring unit (22) is included in the AC ground fault current which is the detected comprising (i _r), the clamp meter comprises (23) The reactance value (L) of the variable coil (18) included in the clamp meter is adjusted so that the current value of the AC ground fault current displayed on is minimized, and the current value of the ground fault current is measured. The branch line (2) in which the measured ground fault current value is a value other than “0” among the plurality of branch lines is identified as a ground fault line.
Here, even when the reactance value of the variable coil is adjusted so that the current value of the AC ground fault current displayed on the display unit is minimized, the minimum current value of the AC ground fault current cannot be obtained. May adjust the reactance value of the variable coil again after switching the tap of the tapped winding by the switch (19) provided in the clamp meter.

The clamp meter and the DC ground fault line searching method of the present invention have the following effects.
(1) By using a clamp meter equipped with an AC power supply, it is not necessary to control an electronic variable resistor to generate an AC voltage, so that the clamp meter can be made smaller and lighter.
(2) The clamp meter can be further reduced in size and weight by configuring the ground capacitance current removing means included in the clamp meter with a tapped winding, a switch, and a variable coil.
(3) By using a clamp meter or an AC power supply device equipped with an AC power supply, it is possible to more easily identify the ground fault line than when using an AC conversion type DC ground fault detection device.

  For the above purpose, an AC voltage is applied to a plurality of branch lines from an AC power source using a clamp meter having an AC power source, a clamp-type current transformer, a ground capacitance current removing means, and a ground fault current measuring unit, AC ground fault current flowing through each branch line is detected by a clamp-type current transformer, and the ground capacitance current contained in the detected AC ground fault current is removed by ground capacitance current removing means. The current value of the ground fault current included in the current was measured by the ground fault current measuring unit, and the ground fault line was identified based on the measured current value of the ground fault current.

Embodiments of a clamp meter and a DC ground fault line searching method according to the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the clamp meter 10 according to the first embodiment of the present invention includes a plurality of branch lines (such as the branch line 2 in FIG. 2) branched from the main line 1 (see FIG. 2) of the DC circuit. a clamp-type current transformer 15 for detecting an AC ground fault current i _g flowing to each AC power supply (ground fault source) 16 for applying an AC voltage to the plurality of branch lines, the clamp-type current transformer 15 a variable coil 18, switch 19 and the tapped winding 20 (earth capacitance current removing means) for removing the earth capacity current i _c which are contained in the detected AC grounding current i _g by, a ground fault current measuring unit 22 for measuring the current value of the ground fault current i _r contained in the AC ground fault current i _g detected by the clamp-type current transformer 15, measured by the ground fault current measuring section 22 to display the current value of the difference between the ground-fault current i _r ; And a radical 113 23.

Here, the clamp-type current transformer 15 is provided on the upper surface of the casing 11, and the AC power supply 16, the coupling capacitor 17, the variable coil 18, and the ground fault current measuring unit 22 are provided in the casing 11. The switch 19 and the display unit 23 are provided on the front surface of the housing 11. Further, on the front surface of the housing 11, first and second terminals 12 ₁ and 12 ₂ and a reactance adjustment knob (not shown) for changing the reactance value L of the variable coil 18 are provided.

One end of the AC power source 16 is connected to a first terminal 12 ₁ via the coupling capacitor 17, the other end of the AC power source 16 is connected to the second terminal 12 _2.
The AC voltage output from the AC power supply 16 is supplied to the first and second terminals 12 ₁ and 12 ₂ via the first and _second lead wires 13 ₁ and 13 ₂ , respectively. The clips 14 ₁ and 14 ₂ are applied to a plurality of branch lines.

The tapped winding 20 is provided in the clamp type current transformer 15. One end of the tapped winding 20 is connected to a first terminal 12 _1, each tap of the tapped winding 20 is connected to the second terminal 12 ₂ via the switch 19 and the variable coil 18 Yes.
The ground capacitance current _ic is removed by adjusting the reactance value L of the variable coil 18 to change the phase of the AC voltage supplied from the AC power supply 16 to the clamp-type current transformer 15. If the ground capacitance current _ic cannot be removed even if the t is changed, the number of turns of the tapped winding 20 is adjusted by switching the tap of the tapped winding 20 using the switch 19. Each tap of the tapped winding 20 is provided so that the reactance of the tapped winding 20 can be switched to 150 μF, 300 μF, 600 μF, and 900 μF.

The clamp type current transformer 15 is provided with a winding 21, and both ends of the winding 21 are connected to a ground fault current measuring unit 22.
As described above, the ground capacitance current _ic is completely removed by the variable coil 18 and the tapped winding 20, so that the AC ground fault current i _{g is obtained} by the winding 21 provided in the clamp-type current transformer 15. It is possible to detect only the ground fault current i _r included in the.
The current value of the ground fault current i _r detected by the clamp-type current transformer 15, after being measured by the ground fault current measuring unit 22, is displayed on the display unit 23.

Next, a method for specifying a ground fault line using the clamp meter 10 (a DC ground fault line searching method according to the first embodiment of the present invention) will be described with reference to FIGS.
When a ground fault occurs on the N pole side of the branch line 2 shown in FIG. 2, a message “A ground fault has occurred on the N pole side” is displayed on the DC ground fault detection relay 4 provided on the main line 1. .

When the ground fault accident continues, the worker disconnects the ground wire of the DC ground fault detection relay 4. Thereafter, the worker attaches the second clip 14 ₂ of the clamp meter 10 to the ground terminal of the terminal block 8, and then attaches the first clip 14 ₁ to the N pole terminal of any branch line of the terminal block 8. Then, an AC voltage is applied from the AC power supply 16 of the clamp meter 10 to the N pole side of this branch line.

Thereafter, the worker clamps this branch line with the clamp-type current transformer 15 of the clamp meter 10 and then displays the current value displayed on the display unit 23 (the AC ground fault current i detected by the clamp-type current transformer 15). The reactance value L of the variable coil 18 is adjusted while turning the reactance adjustment knob of the clamp meter 10 so that the current value of _g ) is minimized. At this time, if the minimum current value cannot be obtained, the operator switches the switch 19 of the clamp meter 10 to change the number of windings of the tapped winding 20 and then adjusts the reactance of the clamp meter 10. The reactance value L of the variable coil 18 is adjusted again while turning the knob.

If the N-pole side of the branch line which is clamped by the clamp-type current transformer 15 is a ground fault does not occur (i.e., when it is healthy line), the not flowing ground fault current i _r in the branch line Therefore, as shown in FIG. 3 (a), the minimum current value displayed on the display unit 23 (current value of the ground fault current i _r) becomes "0". On the other hand, if a ground fault has occurred on the N pole side of the branch line clamped by the clamp-type current transformer 15 (that is, if it is branch line 2 (ground fault line)), this branch line has no ground. since the fault current i _r is flowing, as shown in Fig. 3 (b), the minimum current value displayed on the display section 23 (the current value of the ground fault current i _r) is a value other than "0" .

Thus, the operator, by performing such operations for a plurality of branch lines branched from the main line 1, the minimum current value displayed on the display unit 23 (current value of the ground fault current i _r) is "0 The branch line 2 showing a value other than "" can be specified as a ground fault line.

Although the AC voltage is applied to the branch line from the AC power supply 16 of the clamp meter 10 as described above, the AC voltage may be applied to the branch line using an AC power supply device that is separate from the clamp meter 10. However, in this case, the earth capacitance current i _c included in the AC grounding current i _g in order to remove the variable coil 18 and the tapped winding 20, the AC voltage output from the AC power supply radio Alternatively, it is transmitted to the clamp meter 10 by wire, and the AC voltage received from the AC power supply device in the clamp meter 10 and the AC voltage output from the AC power supply 16 of the clamp meter 10 are synchronized.
Further, it provided with the first terminal 12 near ₁ the first fuse as a protection circuit against a short circuit current due to the AC power source applied to the electrostatic capacitance of the DC path due first clip 14 _first short-circuit flows, Figure As shown in FIG. 2, when the clamp meter 10 is connected between the N pole side of the branch line 2 and the ground, if the P pole side of the branch line 2 is grounded with a lower impedance, a direct current is applied to the tapped winding 20. In the vicinity of the tapped winding 20, a second fuse (which normally has a smaller rated current than the first fuse because only the compensation current of the ground capacitance current _ic flows) is used as a protection circuit against the flow of May be provided.

Next, a clamp meter 30 according to a second embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 4, the clamp meter 30 according to the present embodiment uses a synchronous rectifier circuit 31 instead of the variable coil 18, the switch 19, and the tapped winding 20 to remove the ground capacitance current _ic. This is different from the clamp meter 10 according to the first embodiment described above.

That is, the clamp meter 30 according to this embodiment, variable coil 18, switch 19 and instead of the tapped winding 20, the ground fault current is included in the AC ground fault current i _g inputted from the winding 21 i _r and the synchronous rectification circuit 31 the phase difference between the earth capacitance current i _c to extract only ground-fault current i _r to remove earth capacitance current i _c performs the synchronous rectification utilizing that is 90 ° Is different from the clamp meter 10 according to the first embodiment described above.
Note that an AC voltage is input to the synchronous rectifier circuit 31 from the AC power supply 16 in order to perform a synchronous rectification process.

Next, a method for identifying a ground fault line using the clamp meter 30 (a DC ground fault line searching method according to the second embodiment of the present invention) will be described with reference to FIG.
When a ground fault occurs on the N pole side of the branch line 2 shown in FIG. 5, a message “A ground fault has occurred on the N pole side” is displayed on the DC ground fault detection relay 4 provided on the main line 1. .

When the ground fault accident continues, the worker disconnects the ground wire of the DC ground fault detection relay 4. Thereafter, the operator may attach the first clip 14 ₁ to N terminal of any branch line terminal board 8 then fitted with a second clip 14 _second clamp meter 30 to the ground terminal of the terminal block 8 Then, an AC voltage is applied from the AC power supply 16 of the clamp meter 30 to the N pole side of this branch line.

Thereafter, the worker clamps this branch line with the clamp-type current transformer 15 of the clamp meter 30. Accordingly, the capacitance to ground current i _c included in the AC ground fault current i _g to be removed by the synchronous rectifier circuit 31 as described above, ground fault current i _r of current included in the AC ground fault current i _g The value is measured by the ground fault current measuring unit 22, and the measurement result is displayed on the display unit 23.

If the N-pole side of the branch line which is clamped by the clamp-type current transformer 15 is a ground fault does not occur (i.e., when it is healthy line), the not flowing ground fault current i _r in the branch line Therefore, the measured ground fault current i _r is “0”. On the other hand, if a ground fault has occurred on the N pole side of the branch line clamped by the clamp-type current transformer 15 (that is, if it is branch line 2 (ground fault line)), this branch line has no ground. Since the fault current i _r flows, the measured current value of the ground fault current i _r is displayed on the display unit 23.

  Therefore, the worker performs such work on a plurality of branch lines branched from the main line 1, so that the branch line 2 whose current value displayed on the display unit 23 shows a value other than “0” is displayed. It can be specified as a ground fault line.

In the above description, an AC voltage is applied to the branch line from the AC power supply 16 of the clamp meter 30. However, an AC voltage may be applied to the branch line using an AC power supply device that is separate from the clamp meter 30. However, in this case, in order to remove the ground capacitance current _ic by the synchronous rectifier circuit 31, the AC voltage output from the AC power supply device is transmitted to the clamp meter 30 wirelessly or by wire to the clamp meter 30. The AC voltage received from the AC power supply device and the AC voltage output from the AC power supply 16 of the clamp meter 30 are synchronized.

Next, a DC ground fault line searching method according to a third embodiment of the present invention will be described with reference to FIGS.
When a ground fault occurs on the N pole side of the branch line 2 shown in FIG. 6, a message “A ground fault has occurred on the N pole side” is displayed on the DC ground fault detection relay 4 provided on the main line 1. .

When the ground fault accident continues, the worker disconnects the ground wire of the DC ground fault detection relay 4. Thereafter, the worker, the second clip 41 ₂ of the AC power supply 40 'the first clip 41 ₁ then attached to the ground terminal of the terminal block 8' terminal board 8 to the main line 1 of N terminal of Attach and apply an AC voltage from the AC power supply device 40 to the N extreme side of the main line 1.

Thereafter, the worker, in order to measure the AC grounding current i _g flowing to each of the plurality of branch lines branched from the main line 1, clamp any branch line with the clamp-type current transformer 51 of the clamping device 50 To do. Thus, since the capacitance to ground current i _c included in the AC ground fault current i _g is to be removed by the synchronous rectification circuit incorporated in the clamp device 50 (not shown), land included in the AC ground fault current i _g current value of the fault current i _r is measured ground fault current measuring section of the clamping device 50 by (not shown), the measurement result is displayed on the display unit of the clamping device 50 (not shown).

If the branch line of clamping with the clamp-type current transformer 51 is a ground fault does not occur (i.e., when sound line), the in the branch line for not flowing ground fault current i _r, is measured The ground fault current i _r becomes “0”. On the other hand, when a ground fault has occurred on the N pole side of the branch line clamped by the clamp-type current transformer 51 (that is, in the case of branch line 2 (ground fault line)), since the flow fault current i _r, the measured current value of the ground fault current i _r is displayed on the display unit.

  Therefore, the worker performs such work on a plurality of branch lines branched from the main line 1, so that the current value displayed on the display unit of the clamp device 50 indicates a value other than “0”. Line 2 can be identified as a ground fault line.

The AC power supply device 40 includes a main body 42, a power plug 43, a transformer 44 built in the main body 42, a coupling capacitor 45, and a fuse 46, as in the AC power supply device 40a shown in FIG. Then, after the AC voltage of AC 100V input from the power plug 42 is converted into an AC voltage having a predetermined voltage value by the transformer 44, the DC component is removed by the coupling capacitor 45, and the first and second clips 41 ₁ , 41 are removed. It can be supplied to ₂ .
The AC power supply device 40 includes a storage battery 47 and an inverter circuit 48 built in the main body 42 instead of the power plug 43 and the transformer 44 as in the AC power supply device 40b shown in FIG. The DC voltage output from 47 may be converted into an AC voltage by the inverter circuit 48, and then the DC component may be removed by the coupling capacitor 45 and supplied to the first and second clips 41 ₁ and 41 ₂ .
The same applies to the AC power supply 16.

It is a block diagram which shows the structure of the clamp meter 10 by 1st Example of this invention. It is a figure for demonstrating the method to identify a ground fault line using the clamp meter 10 shown in FIG. It is a graph showing a change of an AC ground fault current i _g when changing the reactance value L of the variable coil 18 shown in FIG. 1, (a) is a graph showing a case of a healthy line, (b) the land It is a graph which shows the case of a tangential line. It is a block diagram which shows the structure of the clamp meter 30 by the 2nd Example of this invention. It is a figure for demonstrating the method to identify a ground fault line using the clamp meter 30 shown in FIG. It is a figure for demonstrating the direct-current ground fault circuit search method by the 3rd Example of this invention. It is a figure which shows the example of a structure of the alternating current power supply device 40 shown in FIG. It is a figure for demonstrating the principle of a direct-current ground fault circuit search method.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main line 2, 2 _{1 to} 2 _{3 1st} to _3rd branch line 3 DC power supply 4 DC ground fault detection relay 5 _{1 to} 5 ₃ 1st to 3rd load 6 DC ground fault detection device 7 _{1 to} 7 ₃ First to third current transformers 8, 8 ′ Terminal block 10, 30 Clamp meter 11 Housings 12 ₁ , 12 ₂ First and second terminals 13 ₁ , 13 ₂ First and second lead wires 14 ₁ , 14 ₂ , 41 ₁ , 41 ₂ 1st and 2nd clips 15, 51 Clamp-type current transformer 16 AC power supply (ground fault power supply)
17, 45 Coupling capacitor 18 Variable coil 19 Switch 20 Tapped winding 21 Winding 22 Ground fault current measurement unit 23 Display unit 31 Synchronous rectifier circuit 40, 40a, 40b AC power supply 42 Main body 43 Power plug 44 Transformer 46 Fuse 47 battery 48 inverter circuit 50 clamping device L reactance value I _g DC ground fault current i _g AC grounding current i _r grounding current i _c earth capacity currents

Claims (4)

A clamp meter (10) used for identifying a branch line in which a ground fault has occurred among a plurality of branch lines branched from a main line (1) of a DC circuit via a terminal block (8). ,
The second terminal (12 ₂ ) is attached to the ground terminal of the terminal block, and the first terminal (12 ₁ ) is connected to the ground fault of an arbitrary branch line among the plurality of branch lines of the terminal block. An AC power source (16) for applying an AC voltage to the pole side where the ground fault has occurred in the plurality of branch lines via the first and second terminals. ,
Wherein the plurality of AC ground fault current flowing through each branch line (i _g) the clamp-type current transformer for detecting (15),
Ground capacitance current removal means (18, 19, 20) for removing ground capacitance current (i _c ) included in the AC ground fault current detected by the clamp-type current transformer;
Wherein together they are connected to both ends of the clamp-type current transformer provided winding (21), ground fault current that is included in the AC ground fault current detected by said clamp-type current transformer (i _r ) A ground fault current measuring unit (22) for measuring the current value of
The current value of the AC ground fault current detected by the clamp-type current transformer in the branch line to which the AC voltage is applied from the AC power source among the plurality of branch lines, and the ground fault current measuring unit. A display unit (23) for displaying the measured current value of the ground fault current;
One end of the AC power supply is connected to the first terminal via a coupling capacitor (17), and the other end of the AC power supply is connected to the second terminal,
The ground capacitance current removing means is
A tapped winding (20) provided in the clamp-type current transformer;
A switch (19) for switching a tap of the tapped winding;
A variable coil (18) provided between the switch and the second terminal;
One end of the tapped winding is connected to the first terminal, and the tap of the tapped winding switched by the switch is connected to the second terminal via the switch and the variable coil. To be
A clamp meter characterized by that. The other AC voltage sent from the AC power supply device when used in combination with an AC power supply device for applying another AC voltage to the pole side where the ground fault has occurred in the plurality of branch lines. The clamp meter according to claim 1, further comprising means for outputting the AC voltage from the AC power source in synchronization with the AC power source. A branch line in which a ground fault has occurred is identified using a clamp meter (10) according to claim 1 among a plurality of branch lines branched from a main line (1) of a DC circuit via a terminal block (8). DC ground fault line exploration method for
The second terminal (12 ₂ ) is attached to the ground terminal of the terminal block, and the first terminal (12 ₁ ) is connected to the ground fault of an arbitrary branch line among the plurality of branch lines of the terminal block. The AC power source (16) provided in the clamp meter is attached to the pole terminal on the pole side, and the AC is supplied to the pole side where the ground fault of the plurality of branch lines has occurred via the first and second terminals. Apply voltage,
Said detecting clamp-type current transformer clamp meter comprises (15) an AC ground fault current flowing in the arbitrary branch line using the a (i _g),
The ground capacitance current (i _c ) included in the detected AC ground fault current is removed by the ground capacitance current removal means (18, 19, 20) included in the clamp meter,
Measuring a current value of the ground fault current measuring unit clamp meter comprises (22) said detected AC ground fault current to Including ground fault current by (i _r),
The reactance value (L) of the variable coil (18) provided in the clamp meter is adjusted so that the current value of the AC ground fault current displayed on the display unit (23) provided in the clamp meter is minimized. , Measure the current value of the ground fault current,
The branch line (2) in which the measured ground fault current value is a value other than “0” among the plurality of branch lines is identified as a ground fault line.
A method of searching for a DC ground fault circuit.   If the minimum current value of the AC ground fault current cannot be obtained even if the reactance value of the variable coil is adjusted so that the current value of the AC ground fault current displayed on the display unit is minimized, 4. The DC ground fault line search method according to claim 3, wherein the reactance value of the variable coil is adjusted again after the tap of the tapped winding is switched by the switch (19) provided in the clamp meter.