JP2004108974A - Method of checking watthour meter for erroneous connection and erroneous connection checker for watthour meter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method by which the erroneous connection of a watthour meter for single-phase three-wire AC power source to an electric wire can be detected surely and immediately before an abnormal voltage is scarcely impressed upon a load at the time of connecting the meter to the electric wire. <P>SOLUTION: In this method, electric wires are respectively connected to terminals 1S, 2S, 3S, 1L, 2L, and 3L while the voltage to ground of a load-side neutral conductor to be connected to the second load connecting terminal 2L is measured and, when a voltage to ground higher than a set value appears in the load-side neutral conductor, the connection is discriminated as an erroneous connection. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a watt-hour meter incorrect connection check method and a watt-hour meter wrong connection checker for checking the correctness or incorrect connection of an electric wire to a watt hour meter in a replacement work of a single-phase three-wire watt hour meter. It is.
[0002]
[Prior art]
Conventionally, when a watt-hour meter is newly installed or a watt-hour meter is replaced between a single-phase three-wire AC power supply and a load, the connection of electric wires to each terminal of the watt-hour meter is visually confirmed. The correspondence between the color of the electric wire coating and the terminals of the watt-hour meter is checked, and each wire is numbered 1, 2, 3 and the number is corresponded to the number of the terminal portion of the watt-hour meter.
[0003]
For example, the first power input terminal (1S) and the first load connection terminal (1L) have red wires, and the second power input terminal (2S) and the second load connection terminal (2L) have white wires. It is confirmed that a black (or blue) electric wire is connected to the electric wire, the third power input terminal (3S), and the third load connection terminal (3L). In addition, the terminal numbered 1 is the electric wire numbered 1, the terminal numbered 2 is the electric wire numbered 2, and the terminal numbered 3 is the number number 3. Check the wires with.
[0004]
[Problems to be solved by the invention]
However, such a visual check as described above may cause an incorrect connection due to a mistake. In addition, since there is a case where confirmation is performed after the connection is completed, there is a problem that when a connection error occurs, an abnormal voltage has already been applied to the load when the connection is confirmed.
[0005]
Therefore, if an incorrect connection occurs in the connection of the electric wire to the watt hour meter, immediately detect this and make sure that no abnormal voltage is applied to the load or that it is not applied continuously. It is necessary to.
[0006]
Therefore, the present invention has been proposed in view of the above-described circumstances, and in connection of an electric wire to a watt hour meter of a single-phase three-wire AC power supply, an erroneous connection can be reliably detected. Provides a method for checking incorrect connection of a watt hour meter that can detect an incorrect connection immediately before almost no abnormal voltage is applied to the load. It is an object of the present invention to provide an erroneous connection checker of a watt hour meter with good characteristics.
[0007]
[Means for Solving the Problems]
The present invention has been proposed in order to achieve the above object, and the first invention (the invention described in claim 1) relates to a method for checking an incorrect connection of a watt hour meter according to the present invention. A first power supply terminal connected to a single-phase three-wire AC power supply; a first power supply terminal connected to a load; and a third load connection terminal connected to a load. When connecting the electric wires to the respective terminals of the watt-hour meter, each of which is a terminal to which a neutral wire is connected, the load connection terminal measures a ground voltage of the electric wire to be connected to the second load connection terminal. While connecting the electric wire to each terminal, when the electric wire to be connected to the second load connection terminal has a ground voltage equal to or higher than a set value, it is determined that the connection is incorrect. It is.
[0008]
In the method for checking misconnection of a watt hour meter according to the first invention, when a ground voltage equal to or higher than a set value appears on an electric wire to be connected to the second load connection terminal, it is determined that the connection is incorrect. Thus, the occurrence of an erroneous connection that causes the application of an abnormal voltage to the load can be immediately and surely known.
[0009]
According to a second invention (an invention according to a second aspect), in the method for checking for incorrect connection of the watt hour meter, the measurement of the earth voltage of the electric wire to be connected to the second load connection terminal may be performed by the second load. A detection clip for holding the electric wire to be connected to the connection terminal and attached to the electric wire, an electrode attached to a portion of the detection clip for holding the electric wire, and a detection circuit for detecting an induced voltage induced on the electrode And a display circuit for issuing a warning when an induced voltage induced in the electrode based on a detection result in the detection circuit has a ground voltage equal to or higher than a set value in an electric wire to be connected to the second load connection terminal. This is performed using an incorrect connection checker having the following.
[0010]
According to the second aspect of the present invention, it is possible to immediately and immediately know the occurrence of the erroneous connection that causes the application of the abnormal voltage to the load by the warning by the display circuit of the erroneous connection checker.
[0011]
Further, a third invention (an invention according to claim 3) relates to a misconnection checker of a watt hour meter, and includes first to third power supply input terminals connected to a single-phase three-wire AC power supply. A watt-hour meter having first to third load connection terminals connected to a load, wherein the second power supply input terminal and the second load connection terminal are each a terminal to which a neutral wire is connected; A detection clip attached to and attached to an electric wire to be connected to the second load connection terminal when the electric wire is connected to the terminal, and an electrode attached to a portion of the detection clip that sandwiches the electric wire; A detection circuit that detects an induced voltage induced in the electrode; and a display circuit that issues a warning according to a detection result in the detection circuit. The display circuit is configured such that the induced voltage induced in the electrode is applied to a second load connection terminal. For the wires to be connected, In which ground voltage is characterized in that a warning if occurring.
[0012]
According to the misconnection checker of the watt hour meter according to the third invention, the display circuit causes the induced voltage induced in the electrode to generate a ground voltage equal to or higher than the set value in the electric wire to be connected to the second load connection terminal. In this case, a warning is issued, so that the occurrence of an erroneous connection that causes the application of an abnormal voltage to the load can be immediately and surely known.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a method for checking an incorrect connection of a watt hour meter according to an embodiment of the present invention will be described with reference to the drawings.
[0014]
As shown in FIG. 1, a method for checking for incorrect connection of a watt hour meter according to this embodiment includes first to third power supply input terminals connected to a single-phase three-wire AC power supply and a first power supply terminal connected to a load. To the third load connection terminal, and the second power supply input terminal and the second load connection terminal are each a terminal to which a neutral wire is connected. In doing so, it is intended to ensure that the abnormal voltage is not applied to the load at all, or that it is not applied continuously, by immediately and surely knowing that there is an erroneous connection.
[0015]
Here, as shown in FIG. 1, the first to third power input terminals of the watt hour meter 1 for single-phase three-wire AC are 1S, 2S, and 3S, and the first to third load connection terminals are 1L, 2L, and 3L, the connection states of the first to third power supply input terminals 1S, 2S, and 3S from the power supply 4 can be six states (A) to (F) in FIG. In addition, the connection states of the first to third power supply input terminals 1L, 2L, and 3L to the loads 5 and 6 can be six states (1) to (6) in FIG. Here, the combination of (A)-(1) is a correct connection state. Therefore, the total of 35 connection states, that is, five connection states (2) to (6) for (A) and 30 connection states (1) to (6) for (B) to (F) are all incorrect connection states. It is. Of the 35 types of misconnections, (A) is (2), (3), (4), and (5), and (B) is (1), (3), ( 5) and (6), (C) with (1), (2), (4) and (6), and (D) with (1), (3) and ( 5) and (6), (E) for (2), (3), (4) and (5), and (F) for (1), (2) and ( If the total of 24 misconnections (4) and (6) occur, an abnormal voltage is applied to the load 5 or the load 6. Therefore, these 24 types of erroneous connection must be detected immediately upon connection and disconnected to prevent application of an abnormal voltage to the load 5 or the load 6.
[0016]
It should be noted that the other 11 misconnections (one for (A), one for (6), two for (B), two for (4), and three for (C), (3), (5), (D) (2), (4), (E) (1), (6), (F) (3) , (5), a total of 11 patterns), an abnormal voltage is not applied to the load 5 or the load 6 even if an erroneous connection occurs. Good.
[0017]
Then, in the method for checking for incorrect connection of the watt hour meter according to the present invention, the earth voltage of an electric wire (hereinafter, referred to as “neutral conductor on the load side”) to be connected to the second load connection terminal 2L is measured. While connecting, electric wires are connected to each terminal. In other words, in this erroneous connection check method, the ground voltage of an electric wire connected to the second load connection terminal 2L and marked with a white circle on the right end and a black circle on the left end in (1) in FIG. 1 is measured. This incorrect connection check method is to determine an incorrect connection when a ground voltage higher than a set value, for example, a ground voltage of 30% or more of the power supply voltage appears on the neutral line on the load side. is there. The ground voltage of 30% or more of the power supply voltage appears on the neutral line on the load side when the voltage from the power supply 4 is applied to the power supply input terminal corresponding to the position of the black circle on the left end of the electric wire. Then, a voltage from a power supply is applied to the power supply input terminals indicated by black circles in (A) to (F) in FIG. That is, when the positions of the black circles overlap in (A) to (F) and (1) to (6) in FIG. 1, a neutral voltage of 30% or more of the power supply voltage is applied to the neutral line on the load side. , And this combination is 24 types of erroneous connection in which an abnormal voltage is applied to the load 5 or the load 6.
[0018]
Therefore, in the erroneous connection check method of the watt hour meter according to the present invention, when 24 kinds of erroneous connections that cause an abnormal voltage to be applied to the load 5 or the load 6 are made, the ground on the neutral line on the load side is established. Improper connection can be immediately detected by the appearance of the voltage, and the connection can be disconnected immediately.
[0019]
When the ground voltage appearing on the neutral line on the load side for determining a misconnection is set to, for example, 30% or more of the power supply voltage, any one of the above-described 24 types of misconnections may occur. In this case, when only one of the two electric wires having a ground voltage on the power supply side is connected to the terminal, it can be detected that the connection is incorrect. That is, in this case, when only one of the two electric wires having a ground voltage on the power supply side is connected to the terminal, the neutral wire on the load side is connected to the first and second load connection. When a ground voltage is generated by dividing the power supply voltage by the resistance ratio between the load 5 connected between the terminals 1L and 2L and the load 6 connected between the second and third load connection terminals 2L and 3L. There is.
[0020]
For example, in the case where the erroneous connection of (B)-(1) in FIG. 1 is performed, all the electric wires on the load side are connected to the load connection terminals 1L, 2L, 3L, and the third power supply input terminal 3S is connected to the third power supply input terminal 3S. After the neutral wire is connected, as in the case where an electric wire having a ground voltage on the power supply side is connected only to the first power input terminal 1S, loads 5, 6 are provided between the power supply voltage and the neutral wire. Are connected in series, a neutral voltage is generated in the neutral line on the load side by a voltage drop corresponding to the ratio of one load (load 5 in this case) to the entire load.
[0021]
Therefore, if the ratio of the resistance values of these loads 5 and 6 is 3 to 7 (30%: 70%) to 5 to 5 (50%: 50%), the two power-supply-side wires having a ground voltage When only one of them is connected to the terminal, a ground voltage of 30% or more of the power supply voltage is generated. When the balance between these loads 5 and 6 is 2 to 8 (20%: 80%), when the ground voltage appearing on the neutral line on the load side becomes 20% or more of the power supply voltage. You may set so that it may determine that it is an incorrect connection.
[0022]
In addition, in the method for checking for incorrect connection of the watt hour meter according to the present invention, the earth voltage of the neutral line on the load side can be determined using the following incorrect connection checker. The misconnection checker has a detection circuit for detecting a ground voltage of a neutral line on the load side of the watt hour meter, and is configured to issue a warning at the moment when a ground voltage occurs in the neutral line. .
[0023]
The incorrect connection checker according to the present embodiment has a detection clip 7 that is attached to the electric wire while holding the neutral wire on the load side as shown in FIG. The detection clip 7 is composed of a pair of members that are rotatable with respect to each other, and is configured such that the biasing force of an elastic member (not shown) can hold the neutral line on the load side at the distal end side. As shown in FIGS. 3 and 4, the detection clip 7 is covered with a cover 7a made of an insulating material. The portion of the detection clip 7 which holds the electric wire is an electrode 8 as shown in FIG. As shown in FIG. 4, when the detection clip 7 is attached to the electric wire 101, the electrode 8 comes close to the core wire 101 a of the electric wire 101 via the coating 102 of the electric wire 101. When an AC voltage is generated in the core wire 101 a of the electric wire 101, an induced voltage is induced in the electrode 8. The induced voltage induced at the electrode 8 in this manner is output to the shield wire 9. The shield wire 9 is connected to the main body 10 as shown in FIG. As described above, by using the shield wire 9 for connection between the electrode 8 and the main body 10, a signal line connecting the electrode 8 and the main body 10 can be connected to a wire having a ground voltage other than a neutral wire. A shielding effect that eliminates the influence of the electrostatic induction voltage can be obtained. Further, when the electrode 8 of the detection clip 7 is insulated from members other than the electrode and the member other than the electrode is made of a conductor such as a metal, the shield portion of the shield wire 9 and the electrode other than the electrode of the detection clip 7 are formed. By connecting the member, the shielding effect can be further increased.
[0024]
Then, the induced voltage induced in the electrode 8 is detected by a detection circuit built in the main body 10, as shown in FIGS. The detection circuit includes a voltage dividing resistor 12 and an IC (operational amplifier) 13 which are electronic elements disposed on a substrate 11 housed in a main body 10. The shield wire 9 connects between the electrode 8 of the detection clip 7 and the voltage dividing resistor 12 and the IC 13. Further, on the substrate 11, a light emitting circuit and a sound generating circuit serving as a display circuit, a battery 14 for supplying operation power, a test switch 15, and the like are provided. The light emitting circuit includes a part of a circuit in the IC 13 and a light emitting element (LED) 16.
[0025]
As shown in the block diagram of the electronic circuit formed in the main body 10 in this way, as shown in FIG. 7, a signal (voltage) input through the shield wire 9 performs sensitivity adjustment. The voltage is amplified by the amplifier circuit 19 via the voltage dividing resistor 12, rectified by the rectifier circuit 20, and sent to the switching circuit 21. When the signal passing through the rectifier circuit 20 is equal to or higher than a certain level, the switching circuit 21 operates to cause the light emitting element 16 to emit light and emit the sound from the speaker 17 via the oscillation circuit 22. The operation power of these circuits is supplied by a battery 14. That is, in the incorrect connection checker according to the present embodiment, a warning is issued by the light emitting element 16 and the speaker 17 forming the display circuit according to the detection result of the detection circuit. This warning is issued when the induced voltage induced in the electrode 8 becomes a voltage corresponding to a case where a ground voltage equal to or higher than a set value is generated in the neutral line on the load side.
[0026]
In this way, if there is a misconnection to the watt hour meter, a warning is immediately issued and the operator is notified that there is a misconnection. This warning may use a display element such as a liquid crystal display element in addition to the light emitting element, or may be a sound using a sound emitting element such as a speaker, as described above, and may further include vibration or the like. It may be based on a mechanical operation.
[0027]
Further, when the detection circuit in the main body 10 is shown as an equivalent circuit, as shown in FIG. 8, a warning is issued when the electric wire to which the detection clip is attached has a ground voltage higher than a set value. . When the detection clip 7 is attached to the neutral wire 101, a capacitance C1 is formed between the core wire 101a of the neutral wire 101 and the electrode 8 of the detection clip 7. The capacitance C2 is also formed between the electric circuit in the main body 10 and the ground. Therefore, when the core wire 101a of the neutral wire 101 has a ground voltage, a leakage current flows via the capacitance C1, the electric circuit in the main body 10, and the capacitance C2. The detection circuit is configured to detect the leakage current flowing in the main body 10 in this way, and to issue a warning by light emission and sound generation when the leakage current exceeds a predetermined value.
[0028]
The leakage current flowing through the electric circuit in the main body 10 is converted into a voltage signal by a sensitivity adjusting volume (sensitivity adjusting circuit) 18 composed of a voltage dividing resistor, and the signal is amplified by an amplifier circuit 19 and rectified. The signal is converted into a DC level signal by the circuit 20 and input to the switching circuit 21. When this signal level exceeds a specified value, the switching circuit 21 outputs an “H” level. The oscillating circuit 22 connected to the switching circuit 21 starts oscillating when the “H” level is input, and emits sound from the speaker 17. Also, the light emitting element (LED) 16 emits light at the “H” level.
[0029]
Therefore, the sensitivity adjusting volume 18 is set so that the input level of the switching circuit 21 becomes a specified value or more when the core wire 101a of the neutral wire 101 has a ground voltage of, for example, 30% or more of the power supply voltage. Thus, a warning can be generated at a ground voltage of 30% or more of the power supply voltage.
[0030]
As described above, the misconnection checker of the watt hour meter according to the present invention is easy to handle, has good operability, and can reliably detect the misconnection, and furthermore, before the abnormal voltage is applied to the load. A warning can be issued.
[0031]
As shown in FIG. 9, this incorrect connection checker is used by attaching a detection clip 7 to a neutral wire on the load side. Then, as shown in FIG. 10, when the neutral wire on the load side is erroneously connected to the 1L terminal, a use state in the replacement work of the single-phase three-wire watt-hour meter 1 will be described. At this time, the incorrect connection checker is set to issue a warning when there is a ground voltage of 30% or more of the power supply voltage, and it is assumed that the connection of the watt hour meter before replacement was normal. And Here, it is assumed that the power supply voltage is 100 V.
[0032]
First, as shown in FIG. 9, the detection clip 7 is attached to the neutral line on the load side of the watt-hour meter 1 to be replaced. Next, the electric wire on the power supply side of the watt hour meter 1 is removed. Then, the electric wire on the load side is also removed. Then, the watt-hour meter 1 is replaced with a new watt-hour meter 1. Next, the electric wire on the load side is connected. At this time, it is assumed that the neutral wire is erroneously connected to the 1L terminal. At this time, since no electric wire is connected to the terminal on the power supply side, no neutral voltage is generated in the neutral wire, and no warning is issued.
[0033]
Then, the electric wire on the power supply side is connected. At this time, when a voltage line is connected to the 1S terminal, a ground voltage of 100 V is generated in the neutral line on the load side, so that a warning is issued. When a voltage line is connected to the 3S terminal first, a warning is issued because a ground voltage of 100 V is generated in the neutral line on the load side. However, if the neutral wire on the power supply side is connected first to the 2S terminal, a ground voltage of 100 V is divided by the load 5 and the load 6 and if the shared voltage of the load 5 is 30 V or more, a warning is issued. Is issued. When a warning is issued, the erroneous connection on the load side is corrected, the electric wire on the power supply side is connected, the detection clip 7 is removed, and the construction is completed.
[0034]
As described above, if the balance between the loads 5 and 6 is 3 to 7, a warning is issued because a ground voltage of 30 V is generated when one of the voltage lines is connected, and an erroneous connection is recognized at this point. it can. Therefore, no abnormal voltage is applied to the loads 5 and 6 by connecting the three wires. If a setting is made so that a warning is issued when there is a ground voltage of 20% or more of the voltage power supply, an erroneous connection can be similarly detected even when the load balance is 2 to 8.
[0035]
Similarly, FIGS. 11 to 17 show examples of a detection operation when another line is erroneously connected. The example shown in FIG. 11 is an erroneous connection composed of the combination of (A)-(2) in FIG. 1, and a warning is issued. The example shown in FIG. 12 is an erroneous connection composed of the combination of (A)-(6) in FIG. 1 and no warning is issued. The example shown in FIG. 13 is an erroneous connection composed of the combination of (C)-(1) in FIG. 1, and a warning is issued. The example shown in FIG. 14 is an erroneous connection composed of the combination of (B)-(1) in FIG. 1, and a warning is issued. The example shown in FIG. 15 is an erroneous connection composed of the combination of (D)-(1) in FIG. 1, and a warning is issued. The example shown in FIG. 16 is an erroneous connection composed of the combination of (F)-(1) in FIG. 1, and a warning is issued. The example shown in FIG. 17 is an erroneous connection composed of the combination of (E)-(1) in FIG. 1, and no warning is issued.
[0036]
【The invention's effect】
As described above, in the method for checking for misconnection of a watt hour meter according to the present invention, it is determined that the connection is incorrect when a ground voltage equal to or higher than a set value appears on a wire to be connected to the second load connection terminal. Since the determination is made, the occurrence of the erroneous connection that causes the application of the abnormal voltage to the load can be immediately and surely known.
[0037]
Further, in this incorrect connection check method, when the measurement of the earth voltage is performed using the incorrect connection checker, an abnormal voltage is applied to the load due to a warning by the display circuit of the incorrect connection checker. The occurrence of an incorrect connection can be immediately and surely known.
[0038]
In the mis-connection checker of the watt-hour meter according to the present invention (invention of claim 3), the display circuit may be configured so that the induced voltage induced in the electrode is set to the electric wire to be connected to the second load connection terminal. Since a warning is issued when the voltage corresponding to the above-mentioned ground voltage is generated, it is possible to immediately know immediately the occurrence of the erroneous connection that causes the application of the abnormal voltage to the load.
[0039]
That is, according to the present invention, in the connection of the electric wire to the watt hour meter of the single-phase three-wire AC power supply, it is possible to reliably detect the incorrect connection, and immediately after the abnormal voltage is hardly applied to the load. It is possible to provide a mis-connection checker of a watt-hour meter which can detect a connection and is easy to handle and has good operability, which is used for performing such a mis-connection check method.
[Brief description of the drawings]
FIG. 1 is a connection diagram showing a state of a wrong connection targeted by a method for checking a wrong connection of a watt hour meter according to the present invention.
FIG. 2 is a plan view showing an appearance of a misconnection checker of the watthour meter according to the present invention used in the above-described watthour meter misconnection check method.
FIG. 3 is a side view showing a configuration of a detection clip of an incorrect connection checker of the watt-hour meter.
FIG. 4 is a plan view of the watt-hour meter when an electric wire is clamped by a detection clip of an incorrect connection checker.
FIG. 5 is a plan view showing an internal configuration of a main body of a misconnection checker of the watt hour meter.
FIG. 6 is a side view showing an internal configuration of a main body of the misconnection checker of the watt hour meter.
FIG. 7 is a circuit block diagram showing a configuration of an incorrect connection checker of the watt-hour meter.
FIG. 8 is an equivalent circuit diagram of a misconnection checker of the watt hour meter.
FIG. 9 is a front view showing a state in which the incorrect connection checker of the watt hour meter is used.
FIG. 10 is a connection diagram showing a state in which a neutral wire on the load side is erroneously connected to a 1L terminal in the replacement work of the watt hour meter.
FIG. 11 is a connection diagram showing a state in which a neutral wire on the load side is erroneously connected to a 3L terminal in replacement work of the watt hour meter.
FIG. 12 is a connection diagram showing a state in which an electric wire connected to the 1L terminal on the load side and an electric wire connected to the 3L terminal on the load side have been exchanged and erroneously connected in the replacement work of the watt hour meter.
FIG. 13 is a connection diagram showing a state in which a neutral wire on the power supply side is erroneously connected to a 1S terminal in replacement work of the watt hour meter.
FIG. 14 is a connection diagram showing a state in which the neutral wire on the power supply side is incorrectly connected to the 3S terminal in the replacement work of the watt hour meter.
FIG. 15 is a connection diagram showing a state in which the neutral wire on the power supply side is erroneously connected to the 3S terminal and the electric wire to be connected to the 3S terminal is connected to the 1S terminal in the replacement work of the watt hour meter.
FIG. 16 is a connection diagram showing a state in which the neutral wire on the power supply side is erroneously connected to the 1S terminal and the electric wire to be connected to the 1S terminal is connected to the 3S terminal in the replacement work of the watt hour meter.
FIG. 17 is a connection diagram showing a state in which an electric wire connected to the 1S terminal on the power supply side and an electric wire connected to the 3S terminal on the power supply side have been exchanged and erroneously connected in the replacement work of the watt hour meter.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Watt hour meter 1S, 2S, 3S Power side terminal 1L, 2L, 3L Load side terminal 4 Power supply 5, 6 Load 7 Detection clip 8 Electrode 9 Shield wire 10 Main body 11 Substrate 12 Voltage dividing resistor 13 IC
14 Battery 16 Light-emitting element 17 Speaker 18 Volume

Claims (3)

It has first to third power input terminals connected to a single-phase three-wire AC power source, and first to third load connection terminals connected to a load, and has a second power input terminal and a second power input terminal. In connecting the electric wires to each terminal of the watt-hour meter, the load connection terminals are each a terminal to which a neutral wire is connected,
While measuring the earth voltage of the electric wire to be connected to the second load connection terminal, the electric wire is connected to each terminal,
A wrong connection check method for a watt hour meter, wherein the wrong connection is determined when a ground voltage equal to or higher than a set value appears on a wire to be connected to the second load connection terminal. The measurement of the earth voltage of the electric wire to be connected to the second load connection terminal includes the steps of: detecting the electric wire to be connected to the second load connection terminal; An electrode attached to the portion holding the electric wire, a detection circuit for detecting an induced voltage induced on the electrode, and an induced voltage induced on the electrode based on a detection result of the detection circuit is connected to the second load connection. 2. The error of the watt-hour meter according to claim 1, wherein the error is detected by using a wrong connection checker having a display circuit for issuing a warning when a ground voltage exceeding a set value occurs in a wire to be connected to the terminal. Connection check method. A first power supply terminal connected to the single-phase three-wire AC power supply; a first load connection terminal connected to the load; and a second load input terminal connected to the load. When the load connection terminals connect the electric wires to the respective terminals of the watt hour meter, each of which is a terminal to which a neutral wire is connected, the electric wires to be connected to the second load connection terminals are sandwiched. A detection clip attached to the wire,
An electrode attached to a portion of the detection clip that holds the electric wire,
A detection circuit for detecting an induced voltage induced in the electrode,
A display circuit for issuing a warning according to the detection result in the detection circuit,
The watt hour meter is characterized in that the display circuit issues a warning when an induced voltage induced in the electrode generates a ground voltage equal to or higher than a set value in a wire to be connected to the second load connection terminal. Misconnection checker.

Images