JP2004138565A - Leakage current measuring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a leakage current measuring device capable of easily measuring a leakage current between an armor which is a measuring object and a power supply line without operating an earth leakage breaker. <P>SOLUTION: This device is equipped with measuring parts (a voltage detection part 12, an A/D conversion part 13 and a control part 19) for measuring as a leakage current, a current value flowing in a pseudo human body impedance in a pseudo human body impedance circuit 11 based on the value of a voltage generated in a current detection resistance of the pseudo human body impedance and the value of the current detection resistance, after connecting the pseudo human body impedance circuit 11 between both some one line of alternating-current power supply lines and the armor which is the measuring object X. The device is also equipped with a resistance R for current restriction connected in series between some one line of the alternating-current power supply lines and the armor which is the measuring object X, and the control part 19 for allowing the measuring parts to measure the leakage current in the state where the resistance R is equivalently short circuited when the current value flowing in the pseudo human body impedance is below a prescribed current value in the state where the resistance R is connected in series. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a leakage current measuring device configured to measure a leakage current in a measurement object.
[0002]
[Prior art]
For example, in the "Electrical Appliance and Material Safety Law, the handling regulations of ministerial ordinances that stipulate the technical standards of electrical appliances" and "IEC 60335-1: 1994 International Standard", two ACs connected to electrical appliances (measured objects) It is instructed to measure the leakage current between any one of the power supply lines (hereinafter also referred to as “power supply line”) and the exterior of the electrical appliance (exposed charging section). As a leakage current measuring device capable of measuring such a leakage current, the applicant has disclosed a leakage ammeter (1) in Japanese Patent Application Laid-Open No. Hei 10-246645. This leak ammeter includes a condition setting section (2), a measurement section (3), an A / D conversion section (4), a CPU (5), a RAM (6), a ROM (7), an LCD controller (8), a VRAM. (9), an LCD (10) and a setting key (11). In this case, the measuring unit includes, for example, a current detection impedance (simulated human body impedance) of about 1 kΩ, a voltage value generated when a leakage current flows through the current detection impedance, and a current detection in the current detection impedance. The current value of the leakage current is calculated (measured) based on the value of the resistance for use.
[0003]
When measuring the above-mentioned leakage current using this leakage ammeter, first, one end of the current detection impedance of the measurement unit and the exterior of the measurement object are connected via a measurement cable. Next, one of the power supply lines is connected to the other end of the current detection impedance. At this time, the CPU causes the measurement unit to measure a current flowing through the current detection impedance through the measurement cable as a leakage current, and determines whether or not the measured value is within a predetermined allowable value. . Next, when it is determined that the measured value is within the allowable value, the CPU causes the LCD controller to display the measured value on the LCD. As a result, the measurement of the leakage current flowing between one of the two power supply lines and the exterior of the electric appliance is completed, and the insulation between the two can be confirmed.
[0004]
[Patent Document 1]
JP-A-10-246645 (pages 4-6)
[0005]
[Problems to be solved by the invention]
However, this leakage ammeter has the following problems to be improved. That is, in this leakage ammeter, by connecting a current detection impedance between one of the other power supply lines and the exterior of the measurement object, one of the other power supply lines and the exterior are connected via the current detection impedance. Is short-circuited, the value of the current flowing through the current detection impedance is measured as the leakage current. In this case, when the exterior of the object to be measured is grounded (connected to a grounding line) and the power supply line is a general single-wire grounding method, the condition setting unit sets the current detection impedance to one of the other power supply lines. When connected to a wire, a large current (for example, when the power supply is 100 V, 100 V / 1 kΩ = about 100 mA) flows due to the grounding of the exterior. In this case, there is a possibility that the earth leakage breaker provided in the power supply system operates to turn off the surrounding power supply. For this reason, when measuring the leakage current between the power supply line and the exterior of the measurement object using this leakage ammeter, the exterior of the measurement object is grounded using, for example, a circuit tester before starting the measurement. It is necessary to investigate whether it has been done. Therefore, since a series of measurement operations including a preliminary investigation require time and effort, it is preferable to improve this.
[0006]
The present invention has been made in view of such a problem to be improved, and a leakage current measuring device capable of easily measuring a leakage current between an exterior of a measurement object and a power supply line without operating a leakage breaker. The main purpose is to provide.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the leakage current measuring device according to claim 1 is configured to connect a current detection impedance between any one of the AC power supply lines and the exterior of the object to be measured to reduce the current detection impedance. A leak current measuring device including a measuring unit that measures a flowing current value as a leak current based on a value of a voltage generated in a current detecting resistor of the current detecting impedance and a value of the current detecting resistor, The current limiting resistor connected in series between the two is equivalent to the current limiting resistor when the current flowing through the current detection impedance is less than or equal to a predetermined current value in a state where the current limiting resistor is connected in series between the two. And a control unit for causing the measuring unit to measure the leakage current in a state where the short circuit is generated.
[0008]
Also, in the leakage current measuring device according to claim 2, in the leakage current measuring device according to claim 1, the control unit flows the current detecting impedance in a state where the current limiting resistor is connected in series between the two. When the current value exceeds the predetermined current value, the grounding of the exterior is notified.
[0009]
Further, in the leakage current measuring device according to a third aspect, in the leakage current measuring device according to the second aspect, the control unit notifies the ground of the exterior and ends the measurement of the leakage current.
[0010]
According to a fourth aspect of the present invention, there is provided a leakage current measuring device according to any one of the first to third aspects, wherein one end is connected to the exterior and the other end is connected to the impedance for current detection. And a switch circuit for connecting or disconnecting any portion between the one wire and the measurement cable, wherein the control unit performs the connection before the connection by the switch circuit. Is displayed on the display unit, and when a connection instruction is input, the connection is connected to the switch circuit.
[0011]
Furthermore, the leakage current measuring device according to claim 5 is the leakage current measuring device according to claim 4, wherein the control unit displays an alert when the portion is connected to the switch circuit. And at least one of alarms.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of a leakage current measuring device according to the present invention will be described with reference to the accompanying drawings.
[0013]
First, the configuration of the leakage current measuring device 1 will be described with reference to the drawings.
[0014]
As shown in FIG. 1, the leakage current measuring device 1 includes a simulated human body impedance circuit 11, a voltage detecting unit 12, an A / D converting unit 13, measuring cables 14a and 14b each having a probe connected to a distal end thereof, The apparatus includes a current limiting resistor connection section 15, switch circuits 16a and 16b, an operation section 17, a display section 18, a control section 19, a ROM 20, a RAM 21, and a ROM 22, and is configured to be able to measure a leakage current of the measurement object X. In this case, the simulated human body impedance circuit 11 includes, for example, a plurality of current detection resistors, a plurality of capacitive elements, and a plurality of relays for switching a connection state of each of these elements (none of which is shown). ), A plurality of types of simulated human body impedances (impedances for current detection) defined by various standards can be formed by turning on / off each relay by the control unit 19.
[0015]
The voltage detection unit 12 includes, as an example, a range circuit that generates a detection voltage by amplifying or attenuating a voltage generated by a leakage current flowing through the simulated human body impedance in the simulated human body impedance circuit 11 at a predetermined ratio; A detection circuit that generates a DC voltage by detecting the voltage and outputs the DC voltage to the A / D converter 13 (both are not shown). Further, the voltage detection unit 12 constitutes a measurement unit in the present invention in cooperation with the A / D conversion unit 13 and the control unit 19, and includes, for example, an exterior of the measurement target X (for example, an exposed charging unit) and a power supply line ( L or N), a voltage generated at both ends of the current detection resistor in the simulated human body impedance in the simulated human body impedance circuit 11 is detected. Specifically, for example, when measuring the exterior leakage current specified in the Electrical Appliance and Material Safety Law described above, the measurement cable 14b is connected to the exterior of the measurement object X (a metal casing or the like). . In this case, when an insulation failure occurs between the power supply line (for example, N) and the exterior in the measurement target X, the insulation failure occurs between the exterior of the measurement target X and the power supply line (L in this example). A leakage current flows through the connected current detection resistor of the simulated human body impedance, and a voltage is generated. Therefore, voltage detection unit 12 detects a voltage for measuring a leakage current caused by the insulation failure.
[0016]
The A / D conversion unit 13 converts the voltage value of the DC voltage output by the voltage detection unit 12 from analog to digital, and outputs the converted value to the control unit 19. The current limiting resistor connection unit 15 corresponds to the current limiting resistor in the present invention, and includes a resistor R connected in series between any one of the power supply lines (L, N) and the exterior of the measurement object X; The switches S1 and S2 connect the power supply line L or the power supply line N to the resistor R in accordance with the control of the switch 19, and the switch S3 short-circuits both ends of the resistor R. In this case, as the resistor R, for example, a resistor of about 102 kΩ is adopted. The switch circuits 16a and 16b include switches S4 and S5 for connecting the measurement cables 14a and 14b to the simulated human body impedance circuit 11 under the control of the control unit 19. The operation unit 17 includes a cursor movement key for moving a cursor up, down, left, and right on various display screens described later, and a plurality of operation buttons such as an OK button and a cancel button. The display unit 18 is configured by a liquid crystal panel as an example, and displays the notification screens 31 to 34 and the measurement result display screen (not shown) shown in FIGS. 2 to 5 under the control of the control unit 19.
[0017]
The control section 19 corresponds to the control section in the present invention, and together with the voltage detection section 12 and the A / D conversion section 13 constitutes a measurement section in the present invention as described above, and each of the simulated human body impedance circuits 11 The on / off control of the relay and the on / off control of the switches S1 to S5 are performed. Further, the control unit 19 calculates (measures) a leakage current value based on the voltage value converted by the A / D conversion unit 13 and the value of the current detection resistance in the simulated human body impedance circuit 11, and controls the display unit 18. Control the display. The ROM 20 is composed of a nonvolatile memory such as an EPROM, and stores measurement condition data indicating the contents of the measurement conditions for measuring the leakage current. The RAM 21 temporarily stores the operation result of the control unit 19 and the like, and the ROM 22 stores the operation program of the control unit 19 and the like.
[0018]
Next, a method of using the leakage current measuring device 1 will be described with reference to the drawings.
[0019]
First, after the leakage current measuring device 1 and the measuring object X are connected by the power line (L, N), the ground line (G), and the measuring cables 14a, 14b, a leakage current measuring process is executed. At this time, when only the measurement of the leakage current specified by the Electrical Appliance and Material Safety Law is performed, only the measurement cable 14b is connected to the exterior of the measurement object X. In this case, the measurement cable 14b corresponds to a measurement cable in which one end of the present invention is connected to the exterior of the measurement target X and the other end is connected to the simulated human body impedance in the simulated human body impedance circuit 11. Next, the measurement process is started by operating the operation unit 17. At this time, the control unit 19 first controls on / off of the switches S1 to S5. Specifically, the control unit 19 controls one of the switches S1 and S2 to be on, and controls the other of the switches S1 and S2 and the switches S3 to S5 to be off. In this case, when measuring the leakage current between the power supply line N and the exterior, the control unit 19 controls the switch S1 to an on state, and when measuring the leakage current between the power supply line L and the exterior, S2 is turned on. Here, as an example, it is assumed that the switch S1 is controlled to be on and the switch S2 is controlled to be off to measure the leakage current between the power supply line N and the exterior.
[0020]
Next, the control unit 19 forms a simulated human body impedance of, for example, 1 kΩ in the simulated human body impedance circuit 11 by controlling ON / OFF of each relay in the simulated human body impedance circuit 11. Next, as shown in FIG. 2, the control unit 19 causes the display unit 18 to display a notification screen 31 for notifying that the power supply line L is connected to the measurement cable 14b. In this case, as shown in the figure, the notification screen 31 displays a message “Check the status of the device to be measured! (Connection of the measurement cable)” (one of the “connection” in the present invention). Display example) and a message "Please operate the OK button." Subsequently, the control unit 19 controls the switch S5 to be in the on state when the OK button is operated by the operator (“when the connection instruction is input” in the present invention). As a result, the switch S1, the resistor R, and the simulated human body impedance circuit 11 are connected by connecting the power supply line L and the exterior of the measurement target X to a part thereof (any portion in the present invention) by the switch S5. Simulated human body impedance (including a current detection resistor), a switch S5, and a measurement cable 14b. At this time, the control unit 19 causes the display unit 18 to display a notification screen 32 for notifying that the power supply line L and the measurement cable 14b are connected, as shown in FIG. In this case, as shown in the figure, the notification screen 32 displays the message "Checking the status of the device to be measured." And "Do not touch the device to be measured and the cable for measurement." (An example of the “alert display” of the present invention) is displayed. At the same time, the control unit 19 causes a speaker (not shown) to emit a warning sound ("alert warning" in the present invention).
[0021]
Next, after controlling the switch S5 to the ON state, the control unit 19 measures the leakage current when a preset standby time (for example, 10 seconds) has elapsed. At this time, the range circuit in the voltage detection unit 12 converts the voltage generated in the current detection resistor in the simulated human body impedance in the simulated human body impedance circuit 11 into a detection voltage, and the detection circuit rectifies the detection voltage. To generate a DC voltage and output it to the A / D converter 13. Further, the A / D converter 13 converts the voltage value of the DC voltage output by the voltage detector 12 from analog to digital, and outputs it to the controller 19. In response to this, the control unit 19 calculates a current value flowing through the current detection resistor in the simulated human body impedance circuit 11 based on the voltage value output by the A / D conversion unit 13 and stores the calculation result in the RAM 21. To memorize. At this time, in the leakage current measuring apparatus 1, even if the exterior of the measuring object X is grounded, the flow of a large current due to the grounding is limited by the resistance R. Specifically, taking a typical commercial AC power supply of 100 V in Japan as an example, even if it is grounded, the current flowing due to the grounding is limited to about 1 mA (100 V / 103 kΩ) or less. You. In this case, generally, the cut-off threshold of the earth leakage breaker is in the range of 6 to 10 mA. Therefore, the operation of the earth leakage breaker is reliably avoided by limiting the current flowing due to grounding with the resistor R. Is done.
[0022]
Next, after storing the calculation result in the RAM 21, the control unit 19 controls the switch S <b> 5 to be in the off state and stops the emission of the warning sound from the speaker. Next, the control unit 19 determines whether or not the exterior of the measurement target X is grounded based on the calculation result stored in the RAM 21. Specifically, in general, the insulation between the power supply line (N in this example) and the exterior of the measurement object X is in a normal state when the insulation resistance is about 100 kΩ or more. Therefore, the control unit 19 determines that the exterior is not grounded when the calculation result is 0.5 mA or less (an example of the predetermined current value in the present invention), and determines that the exterior is grounded when the calculation result exceeds 0.5 mA. I do. At this time, when it is determined that the exterior of the measurement object X is not grounded, as shown in FIG. 4, the control unit 19 determines that the exterior is not grounded and that measurement of the leakage current is started. A notification screen 33 for notification is displayed on the display unit 18 (not shown). Thereafter, when the OK button is operated by the operator, the control unit 19 short-circuits both ends of the resistor R and controls the switch S5 to the on state by controlling the switch S3 to the on state, thereby controlling the simulated human body impedance circuit. The value of the current flowing through the current detection resistor 11 is measured as a leakage current, and the measurement result is displayed on the display unit 18. This completes the measurement of the leakage current flowing between the power supply line L and the exterior of the measurement target X, and as a result, the insulation between the power supply line N and the exterior of the measurement target X is inspected.
[0023]
On the other hand, when the current value measured with the resistor R connected is 0.5 mA or more (when it is determined that the exterior of the measurement target X is grounded), as shown in FIG. 19 causes the display unit 18 to display a notification screen 34 for notifying that the exterior is grounded. In this case, as shown in the figure, the notification screen 34 displays the message "The exterior of the device to be measured is grounded." And "Start the measurement again after removing the ground wire etc." (End measurement!) "Is displayed. At this time, the control unit 19 ends the measurement of the leakage current and causes the display unit 18 to display the notification screen 31 again. At this time, when the OK button is operated after the ground wire or the like is removed by the operator, the control unit 19 sets the current in the state where the resistor R is connected (the state where the switch S3 is turned off) as described above. The value is measured, and each of the above processes is executed according to the measurement result.
[0024]
As described above, according to the leakage current measuring device 1, the simulation is performed in a state where the resistor R (current limiting resistor) is connected between either the power line L or the power line N and the simulated human body impedance circuit 11. When the current flowing through the human body impedance circuit 11 is equal to or less than a predetermined current value (in this case, for example, 0.5 mA), the control unit 19 measures the leakage current in a state in which both ends of the resistor R are short-circuited by the switch S3. As a result, it is possible to avoid the operation of the earth leakage breaker caused by the flow of a large current due to the grounding, and it is possible to surely prevent the power from being dropped in the surrounding area. Further, it is possible to easily measure the leakage current between the power supply line and the exterior of the measurement object X without investigating whether or not the exterior of the measurement object X is grounded before starting the measurement using a tester or the like. .
[0025]
Further, according to the leakage current measuring device 1, the current flowing through the simulated human body impedance circuit 11 in a state where the resistor R is connected between any one of the power supply line L and the power supply line N and the simulated human body impedance circuit 11 is obtained. When the current exceeds the predetermined current value (in this case, for example, when the current exceeds 0.5 mA), the control unit 19 displays the notification screen 34 on the display unit 18 to notify the operator of the grounding of the exterior. Can be surely recognized.
[0026]
Furthermore, according to the leakage current measuring device 1, by ending the measurement of the leakage current when the control unit 19 notifies the grounding of the exterior, it is possible to avoid unnecessary measurement, thereby improving the measurement efficiency. Can be planned.
[0027]
Further, according to the leakage current measuring device 1, the control unit 19 causes the display unit 18 to display the notification screen 31 prior to the connection of the switch circuit 16b between the power supply line and the measuring cable 14b at any point. Then, when the connection instruction is input (when the OK button is operated) after the connection is displayed, the above-described portion between the power supply line and the measurement cable 14b is connected to the switch circuit 16b. Thereby, even an operator unfamiliar with the measurement process can be made to recognize that a high voltage is applied to the measurement cable 14b and the exterior of the measurement object X, so that the measurement can be performed with sufficient attention. be able to. Therefore, safety at the time of measurement can be improved. In particular, when connecting the probe attached to the distal end of the measurement cable 14b to the exterior of the measurement object X by holding it with a hand, it is necessary to pay sufficient attention, so that extremely effective safety measures are provided. .
[0028]
Further, according to the leakage current measuring device 1, when the control unit 19 connects the power supply line and the measurement cable 14b to the switch circuit 16b, the display unit 18 displays the notification screen 32 (alert). And a speaker emits a warning sound (warning), so that it is possible to reliably recognize that a high voltage is applied to the measurement cable 14b and the exterior of the measurement object X. Therefore, the measurement can be performed while further raising the attention.
[0029]
Note that the present invention is not limited to the configuration described in the above embodiment of the present invention. For example, in the above-described leakage current measurement processing, an example was described in which a resistor R having a resistance value of 102 kΩ was used as a current limiting resistor. However, the resistance value of the current limiting resistor in the present invention is not limited to this. A resistor having an arbitrary resistance value capable of avoiding the operation of the earth leakage breaker or the like in combination with the current detecting resistor in the resistor 11 can be adopted. Further, in the embodiment of the present invention, a configuration in which the notification screen 32 is displayed on the display unit 18 and a warning sound is emitted from the speaker when the power supply line and the measurement cable 14b are connected by the switch S5 is taken as an example. However, the present invention is not limited to this. For example, notification by displaying a notification screen that displays various messages other than the notification screen 32, notification by turning on or blinking a warning lamp, and notification by a voice message. A configuration capable of executing various notification methods can be employed. The means for “shorting the current limiting resistor equivalently” in the present invention is not limited to a configuration in which both ends of the resistor R are short-circuited. It is also possible to adopt a configuration in which the resistor R is removed from the substrate and a short-circuit path is formed instead. Furthermore, the example in which the leakage current is measured for the measurement object X for single-phase commercial AC has been described. However, the present invention is applicable to a leakage current measurement device that measures the leakage current for the measurement object for three-phase commercial AC. Of course.
[0030]
【The invention's effect】
As described above, according to the leakage current measuring device of the first aspect, the impedance of the current detection impedance is set in a state where the current limiting resistor is connected in series between any one of the AC power supply lines and the exterior of the measurement object. When the value of the current flowing through the current detection resistor is equal to or less than the predetermined current value, the leakage current is measured by the measuring unit in a state where the current limiting resistor is equivalently short-circuited. As a result, it is possible to avoid the operation of the earth leakage breaker, and as a result, it is possible to reliably prevent the power from being cut off in the vicinity. Further, the leakage current between the power supply line and the exterior of the object to be measured can be easily measured without investigating whether or not the exterior of the exterior of the object to be measured is grounded before starting the measurement using a tester or the like.
[0031]
According to the leakage current measuring device of the second aspect, when the current value flowing through the current detection impedance exceeds a predetermined current value in a state where the current limiting resistor is connected in series between the two, the control unit grounds the exterior. The notification allows the operator to reliably recognize the grounding of the exterior.
[0032]
Furthermore, according to the leakage current measuring device of the third aspect, the control unit reports the grounding of the exterior and ends the measurement of the leakage current, so that useless measurement can be avoided, thereby improving the measurement efficiency. Can be achieved.
[0033]
According to the leakage current measuring device of the fourth aspect, after the control unit displays the connection on the display unit prior to the connection of any one of the one line and the measurement cable by the switch circuit, By connecting a location to the switch circuit when a connection instruction is input, it recognizes that high voltage is applied to the measurement cable and the exterior of the measurement object even for operators unfamiliar with the measurement process. Therefore, the measurement can be performed while sufficiently calling attention. Therefore, safety at the time of measurement can be improved. In particular, when connecting a probe or the like attached to the tip of the measurement cable to the exterior of the measurement object by hand, sufficient care must be taken, and extremely effective safety measures are provided. You.
[0034]
Furthermore, according to the leakage current measuring device of the fifth aspect, when the control unit connects the switch circuit to a location, at least one of a display for alerting and an alarm is executed, thereby providing Since it is possible to reliably recognize that a high voltage is applied to the cable and the exterior of the object to be measured, the measurement can be performed while further raising the attention.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a leakage current measuring device 1 according to an embodiment of the present invention.
FIG. 2 is a display screen diagram of a notification screen 31 displayed on the display unit 18 of the leakage current measuring device 1.
FIG. 3 is a display screen diagram of a notification screen 32 displayed on the display unit 18 of the leakage current measuring device 1.
FIG. 4 is a display screen diagram of a notification screen 33 displayed on the display unit 18 of the leakage current measuring device 1.
FIG. 5 is a display screen diagram of a notification screen displayed on the display unit of the leakage current measuring device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Leakage current measuring device 11 Simulated human body impedance circuit 12 Voltage detection unit 13 A / D conversion units 14a, 14b Measurement cable 15 Current limiting resistance connection units 16a, 16b Switch circuit 17 Operation unit 18 Display unit 19 Control units 31 to 34 Screen R Resistance S1 to S5 Switch X Measurement object

Claims (5)

A current detection impedance is connected between any one of the AC power supply lines and the exterior of the object to be measured, and a current value flowing through the current detection impedance is generated in the current detection resistance of the current detection impedance. A leakage current measurement device including a measurement unit that measures as a leakage current based on a value of a voltage and a value of the resistance for current detection,
A current limiting resistor connected in series between the two,
When the current flowing through the current detecting impedance is equal to or less than a predetermined current value in a state where the current limiting resistor is connected in series between the two, the current limiting resistor is equivalently short-circuited to the measuring unit with the current limiting resistor being equivalently short-circuited. A leakage current measuring device comprising: a control unit configured to measure a leakage current. 2. The leak according to claim 1, wherein the control unit notifies the grounding of the exterior when a current value flowing through the current detection impedance exceeds the predetermined current value in a state where the current limiting resistor is connected in series between the two. 3. Current measuring device. The leakage current measuring device according to claim 2, wherein the control unit notifies the ground of the exterior and ends the measurement of the leakage current. A measurement cable having one end connected to the exterior and the other end connected to the current detection impedance, and a switch circuit for connecting or disconnecting any portion between the one wire and the measurement cable. Prepare
The control unit, after displaying the connection on the display unit prior to the connection of the location by the switch circuit, connects the location to the switch circuit when a connection instruction is input. 4. The leakage current measuring device according to any one of 1 to 3. The leakage current measuring device according to claim 4, wherein the control unit executes at least one of a warning display and an alarm when the switch circuit is connected to the location.

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