JP3142822U - Measuring instrument - Google Patents

Abstract

Provided is a small and portable measuring device that can perform polarity confirmation, voltage measurement, operation test of an earth leakage breaker, etc. with a single measuring device.
An electrode plug having a measuring electrode connected to a power outlet having a two-pole grounding wired indoors and outdoors and having a two-pole electrode having a ground terminal that can be attached to a socket of the outlet. A ground state detection circuit for detecting the presence or absence of grounding of the earth terminal Ec connected to an outlet, a polarity detection circuit for detecting the polarity of the electrode, and a voltage for measuring a voltage acting between the two electrodes A selection switch SW1 for selecting a measurement circuit, a leakage test circuit that connects one of the electrode plugs and the ground terminal via a resistor, and the leakage test circuit and other circuits is provided.
[Selection] Figure 1

Description

  The present invention relates to a measuring instrument for a two-pole outlet or a two-pole grounded outlet for power supply wired indoors and outdoors.

Conventionally, a technique described in Patent Document 1 is known as a test apparatus for a leakage breaker provided in a switchboard. Such a test apparatus is for confirming whether the earth leakage circuit breaker mounted in the switchboard functions normally.
Generally used as household electric power is a 100 V single-phase alternating current, and the electric power is supplied by an outlet.
In Japan, the socket of the outlet has two holes. These two holes are formed as narrow elongated holes having different lengths, and it is agreed that a voltage is applied only to an electrode corresponding to a hole having a short length based on the JIS standard. And the neutral (0V) electric wire which does not supply electric power is connected to the other long socket side.
However, there are cases where the connection is not properly made in accordance with JIS standards, for example, during home construction. The determination as to whether such polarity is correct cannot be made by the test apparatus described in Patent Document 1. Further, if the electrode to which the voltage is applied is unknown among the two poles, it is not clear whether or not the leakage test is correctly performed.
Further, in order to measure the voltage, a circuit tester that is easy to carry is often used, but the tester is not provided with a test function for a leakage breaker.
Japanese Utility Model Publication No. 54-21720

As described above, when diagnosing indoor wiring for home use, the earth leakage circuit breaker provided on the switchboard functions normally, the polarity is correctly connected at the terminal outlet, or the voltage is normal It is necessary to conduct various tests such as Conventionally, however, a dedicated test device is required for each test item, and the test must be performed while replacing the test device, which is very troublesome.
The present invention has been devised in view of the above problems, and provides a small and portable measuring device that can perform polarity confirmation, operation test of an earth leakage breaker, voltage measurement, etc. with a single measuring device. The task is to do.

In order to solve the above problems, the present invention has the following configuration. That is, the device according to claim 1
A measuring instrument connected to a two-pole outlet for power supply wired indoors and outdoors,
An electrode plug having a bipolar electrode attachable to the socket of the outlet;
A conductive cable for grounding or a terminal for connecting a conductive cable;
A grounding state detection circuit for detecting the presence or absence of grounding of the conductive cable or terminal;
A polarity detection circuit for detecting the polarity of the electrode;
A voltage measuring circuit for measuring a voltage acting between the two electrodes;
A leakage test circuit for connecting one of the electrodes and the ground connected by the conductive cable or terminal via a resistor;
A measuring instrument comprising a selection switch for selecting the leakage test circuit and other circuits.

The invention described in claim 2 has the following configuration. That is,
The measuring device according to claim 1, wherein a plurality of types of resistors having different resistance values are provided in the leakage test circuit.

The invention described in claim 3 has the following configuration. That is,
It is a measuring instrument that connects to a power outlet with two poles that is wired indoors and outdoors,
An electrode plug having a bipolar electrode having a ground terminal that can be attached to the socket of the outlet;
A grounding state detection circuit for detecting the presence or absence of grounding of the grounding terminal connected to the outlet;
A polarity detection circuit for detecting the polarity of the electrode;
A voltage measuring circuit for measuring a voltage acting between the two electrodes;
A leakage test circuit for connecting one of the electrode plugs and the ground terminal via a resistor;
A measuring instrument comprising a selection switch for selecting the leakage test circuit and other circuits.

The invention described in claim 4 has the following configuration. That is,
4. The measuring device according to claim 3, wherein a plurality of types of resistors having different resistance values are provided in the leakage test circuit.

The invention according to claim 5 has the following configuration. That is,
A conductive cable for grounding or a terminal for connecting the conductive cable is provided, and a selection switch for selecting whether the grounded part is the conductive cable or the terminal or the ground terminal is provided. The measuring instrument according to claim 3 or 4, characterized by the above.

  The present invention has an effect that it is possible to provide a small and portable measuring device that can perform polarity confirmation, operation test of an earth leakage circuit breaker, voltage measurement, and the like with a single measuring device.

Hereinafter, the best mode for carrying out the measuring device according to the present invention will be described with reference to the drawings. FIG. 1 is an explanatory diagram for explaining the external appearance of a measuring instrument 1 according to the present embodiment. FIG. 1 (a) is a front view showing an operation panel surface of the measuring instrument 1, and FIG. A perspective view is shown.
The measuring instrument 1 has a rectangular parallelepiped casing 3 provided with a rectangular front panel 2 that is formed in a size that can be gripped with a palm. The front panel 2 is provided with a voltage meter (voltmeter) V indicating a voltage at an upper portion thereof. Under the voltage meter V, four small lamps are arranged as an example at regular intervals. The left lamp is a pilot lamp PL, which is in order of lamp PN, lamp PE, and lamp NE. Each lamp serves as an indicator lamp for representing the result of the test in the test using the measuring instrument 1.

Under the four lamps, three push buttons PB1, PB2, and PB3 are provided. The three push buttons are used for various tests.
Two selection switches SW1 and SW2 are provided below the three push buttons. Each of the selection switches SW1 and SW2 is not connected to any circuit when the lever is in the center position, and constitutes a predetermined circuit by tilting forward and backward.
A rotary switch SWr is provided on the right side surface of the housing 3 and has four stop positions, and each stop position constitutes a predetermined circuit.
A removable cap 4 is provided on the left side surface of the housing 3, and a fuse F is stored therein.

  On the front side surface of the housing 3, a conductive wire 5 provided with a crocodile clip 4 at the tip and a plug 6 provided with an outlet connection electrode at the tip are provided via a conductive wire 7. The plug 6 is configured to have two electrodes (P pole and N pole) with a ground terminal (Ec). Further, the alligator clip 4 is a measuring instrument side ground Es which will be described later in detail.

FIG. 2 is a circuit diagram of the measuring instrument 1. The measuring instrument 1 is a device that is wired in a general house and can test whether the wiring state is appropriate or the earth leakage circuit breaker operates normally through an outlet. The measuring instrument 1 can form various circuits and perform tests by appropriately switching the above-described selection switches SW1, SW2, etc. for the test. Hereinafter, each test circuit will be described.
In the circuit diagram, P represents a plug electrode (P pole), and N represents a plug electrode (N pole). Ec represents the ground terminal of the plug 6. Reference numerals in FIG. 1 are the same as those of the switches and lamps shown in FIG.

[Grounding state detection circuit]
The measuring instrument 1 is a circuit for testing whether or not the earth socket is properly grounded with respect to a two-pole outlet with a ground terminal (socket) in which the socket of the outlet has three holes. In order for the measuring instrument 1 to be inserted into the socket of such an outlet, the plug 6 described above is provided with two electrodes (P pole and N pole) with a ground terminal Ec.
The ground socket of the outlet needs to be connected to a ground other than the power line, but in some cases, the ground socket is not grounded. In such a case, of course, the earth socket does not function as an earth. The measuring instrument 1 can test whether or not the earth socket is grounded. Further, the measuring instrument 1 needs to be grounded in order to perform each test described later. Therefore, it is important to confirm the grounding of the measuring instrument 1.

  FIG. 3 is an explanatory diagram showing the settings of the switches SW1 and SW2 when the circuit shown in FIG. 2 is used as a ground state detection circuit. The switch SW1 opens and closes three contacts simultaneously as a circuit. When the switch SW1 is turned downward on the front panel 2 ("voltage polarity TEST"), the contacts S1 and S4 and the contacts S2 and S5 The contacts S3 and S6 are coupled. When the switch SW1 is tilted upward on the front panel 2 ("ELB TEST"), only the contacts S1 and S7 are connected (the other two contacts on the lower side are unused).

In order to confirm the grounding of the outlet, the selection switch SW1 of the measuring instrument 1 is set to the “voltage polarity TEST” side marked on the panel. When used as the ground state detection circuit, the switch SW2 can be selected either way, but is normally neutral. When each electrode of the plug 6 is inserted into the outlet, the pilot lamp PL is turned on.
When the ground terminal Ec is normally grounded, one of the lamps PE and NE is turned on and either one is turned off. On the other hand, when it is not normally grounded, both the lamps PE and NE are turned on.
In this way, it can be determined whether only one of the lamps PE and NE is lit or whether both are lit normally. Yes.

FIG. 4A shows a lighting pattern of the lamps PE and NE by opening / closing (ON / OFF) of the push buttons PB1 and PB2 when the ground terminal Ec is normally grounded. FIG. 4B shows a lighting pattern of the lamps PE and NE by opening / closing (ON / OFF) of the push buttons PB1 and PB2 when the ground terminal Ec is not properly grounded. Yes.
In the present embodiment, the lamp PN is lit regardless of the setting conditions of various switches.

[Polarity detection circuit]
The circuit shown in FIG. 3 also functions as a polarity detection circuit at the same time. In the household 100V single-phase alternating current, a voltage is applied to one of the electrodes (P pole), and the other electrode (N pole) is 0V. The two-pole outlet specified in JIS C 8303 has a short hole (7 mm) on the right side and a long hole (9 mm) on the left side as two holes for electrodes. In this case, the short hole on the right side is the P pole, and the long hole on the left side is the N pole. Normally, the wiring should be the same as this, but in a general home, even if the polarity is different, there are many cases where there is no problem in many cases, and it is often not noticed. The measuring instrument 1 can confirm the polarity of such a two-pole outlet.

The polarity of the two-pole outlet can be confirmed by the lighting pattern of the lamps PE and NE. The lighting pattern differs depending on whether the above-mentioned ground terminal Ec is normally grounded or not normally grounded, and can be confirmed as follows.
That is, when the ground terminal Ec is normally grounded and the outlet has the correct polarity, the lamp PE is lit regardless of whether the push buttons PB1 and PB2 are opened or closed (ON / OFF), and the lamp NE Turns off.
On the contrary, when the polarity of the outlet is opposite, the lamp PE is turned off and the lamp NE is turned on regardless of opening / closing (ON / OFF) of the push buttons PB1 and PB2 (FIG. 5 ( a)). In this way, the polarity of the outlet can be confirmed.

  The measuring instrument 1 is based on the premise that the ground terminal Ec is normally grounded, but the polarity of the outlet can be confirmed even when it is not grounded. In other words, when the ground terminal Ec is not properly grounded, both the lamps PE and NE are turned on regardless of the open / closed (ON / OFF) state of the push buttons PB1 and PB2 if the polarity of the outlet is correct. It is lit (see FIG. 5B). As described above, the measuring instrument 1 can determine the polarity of the outlet even if the ground terminal Ec is not normally grounded.

[Voltage measurement circuit]
Voltage measurement is to measure the voltage between two poles (P, N) of an outlet. Also in this case, the switch SW1 is set to the “voltage polarity TEST” side as in the circuit shown in FIG. That is, the contacts S1 and S4, the contacts S2 and S5, and the contacts S3 and S6 are coupled. In this circuit, the voltage between the electrode P and the electrode N is measured when the push button PB1 is pressed regardless of the lamps (PL, PN, PE, NE), the polarity state, and the grounding. be able to. In this case, 100V is shown if normal (see FIG. 6).

[Leakage test circuit]
The earth leakage test circuit is used to check whether the earth leakage breaker provided on the home switchboard operates normally, and confirms that the earth leakage breaker operates by intentionally generating an earth leakage state. Is to do.
When conducting a leakage test, the switch SW1 is tilted upward ("ELB TEST") on the front panel 2. Then, the contacts S1 and S7 constituting the switch SW1 are coupled as in the circuit shown in FIG. In this case, the contact S2 and the contact S3 are not used.

  When conducting a leakage test, it is necessary that the polarities of the electrodes P and N are correct and the above-mentioned ground terminal Ec is also properly grounded. However, there is a simple two-hole type outlet without an earth electrode as an outlet, and there are cases where it is not possible to obtain ground using the earth terminal Ec of the electrode plug. In this case, the electrode P and the electrode N are connected to an outlet using a conversion adapter (not shown) for two holes, and necessary grounding is a measuring instrument side ground Es provided separately on the front side surface of the housing 3. This is done by the conductive line 5. An alligator clip 4 is provided at the tip of the conductive wire 5 as an example.

Which of the ground terminal Ec and the measuring instrument side ground Es is selected is determined by the switch SW2. If the outlet has a grounding socket, the switch SW2 selects the ground terminal Ec. If the outlet has no grounding socket, the switch SW2 selects the measuring instrument side ground Es.
By selecting this switch, the current of the electrode N flows to the ground terminal Ec or the measuring instrument side ground Es.

  Further, when conducting a leakage test, the flow rate of the leakage current can be selected in four stages by a rotary switch SWr. That is, the rotary switch SWr is provided in the middle of the leakage test circuit, and selects resistors having different resistance values. In the present embodiment, the leakage current can be set to four of 15 mmA, 30 mmA, 50 mmA, and 100 mmA by selecting the rotary switch SWr. Then, by pressing the switch PB3, the circuit is closed and a leakage test is performed. When the earth leakage breaker provided in the switchboard connected to the connected outlet is functioning normally, the earth leakage breaker operates to cut off the current when the switch PB3 is pressed.

  The present invention can be used as a measuring device that detects whether or not an indoor wired outlet is in an appropriate state.

It is explanatory drawing showing the external appearance of the measuring device which concerns on this invention. It is a circuit diagram of the measuring device which concerns on this invention. It is explanatory drawing which shows the use condition of the circuit of the measuring device which concerns on this invention. It is the table | surface showing the lighting pattern of the lamp | ramp of the measuring device which concerns on this invention. It is the table | surface showing the other lighting pattern of the lamp | ramp of the measuring device which concerns on this invention. It is a table | surface showing the example of the voltage display of the measuring device which concerns on this invention. It is explanatory drawing which showed another example of the circuit of the measuring device which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Measuring instrument 2 Front panel 3 Case 4 Alligator clip 5 Conductive wire 6 Electrode plug 7 Conductive wire

Claims (5)

A measuring instrument connected to a two-pole outlet for power supply wired indoors and outdoors,
An electrode plug having a bipolar electrode attachable to the socket of the outlet;
A conductive cable for grounding or a terminal for connecting a conductive cable;
A grounding state detection circuit for detecting the presence or absence of grounding of the conductive cable or terminal;
A polarity detection circuit for detecting the polarity of the electrode;
A voltage measuring circuit for measuring a voltage acting between the two electrodes;
A leakage test circuit for connecting one of the electrodes and the ground connected by the conductive cable or terminal via a resistor;
A measuring instrument comprising a selection switch for selecting the leakage test circuit and other circuits.   The measuring device according to claim 1, wherein a plurality of types of resistors having different resistance values are provided in the leakage test circuit. It is a measuring instrument that connects to a power outlet with two poles that is wired indoors and outdoors,
An electrode plug having a bipolar electrode having a ground terminal that can be attached to the socket of the outlet;
A grounding state detection circuit for detecting the presence or absence of grounding of the grounding terminal connected to the outlet;
A polarity detection circuit for detecting the polarity of the electrode;
A voltage measuring circuit for measuring a voltage acting between the two electrodes;
A leakage test circuit for connecting one of the electrode plugs and the ground terminal via a resistor;
A measuring instrument comprising a selection switch for selecting the leakage test circuit and other circuits.   4. The measuring device according to claim 3, wherein a plurality of types of resistors having different resistance values are provided in the leakage test circuit. A conductive cable for grounding or a terminal for connecting the conductive cable is provided, and a selection switch for selecting whether the grounded part is the conductive cable or the terminal or the ground terminal is provided. The measuring instrument according to claim 3 or 4, characterized by the above.

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