JPH08220180A - AC outlet wiring test equipment - Google Patents

Abstract

(57) [Summary] [Construction] Earth side wiring N and hot side wiring H are grounded.
And first and second voltage detection circuits for detecting the voltage between the hot side wiring and the ground side wiring and between the hot side wiring and the protective ground side wiring via the AC outlet 1 to which the protective ground side wiring G is connected. NE ₁ and NE ₂ and a wiring changeover switch SW ₁ for switching the hot side wiring connected to the second voltage detection circuit to the ground side wiring. [Effect] It is possible to test the wrong connection and disconnection of the ground side wiring, hot side wiring, and protective ground side wiring.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an AC outlet wiring tester, and more particularly to an AC outlet wiring test capable of testing all combinations of ground side wiring, hot side wiring and protective ground side wiring such as incorrect connection and disconnection. Involved in the device.

[0002]

2. Description of the Related Art In a conventional AC outlet wiring test apparatus, as shown in FIG. 5, an AC line is connected to a ground side wiring N to which a ground E of a power transformer 50 is connected, a hot side wiring H, and a protective ground side wiring G. Has outlets 51, 55,
The AC outlet wiring test device 61 is provided with a plug 60 that is inserted into the AC outlets 51 and 55.

For example, in an AC outlet 51, an N side blade receiver 52 to which a ground side wiring N is connected, an H side blade receiver 53 to which a hot side wiring H is connected, and a G side blade receiver to which a protective earth side wiring G is connected. 54 are normally connected. This normally connected wiring is the AC outlet 5
As shown in FIG. 5, when the G side blade receiver 58 is erroneously wired to the ground side wiring N as shown in and the N side blade receiver 56 as the protective ground side wiring G as shown in FIG. By utilizing the potential difference of the resistance in the line G, these miswirings can be detected.

The H-side blade receivers 53 and 57 to which the hot-side wiring H is connected can be checked by a driver or the like having a voltage detecting function to determine whether or not they are erroneously wired.

[0005]

In the conventional AC outlet wiring test apparatus, whether the G side blade receiver of the AC outlet is erroneously wired to the ground side wiring N and the N side blade receiver is erroneously wired to the protective ground side wiring G, respectively. Can be detected, but when the earth of the earth side wiring N and the earth of the protective earth side wiring G are connected to the steel frame of a building, etc., the earth side wiring, the hot side wiring, and the protective earth side wiring are erroneously connected, erroneously disconnected, etc. It has the drawback that it cannot test all cases.

[0006]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned drawbacks, and includes a case where the earth of the earth side wiring and the earth of the protective earth side wiring are connected to a steel frame of a building or the like. It is an object of the present invention to provide an AC outlet wiring tester capable of testing all cases of erroneous connection, erroneous disconnection, etc. of wiring, hot side wiring and protective earth side wiring.

[0007]

In order to achieve this object, an AC outlet wiring test apparatus according to the present invention is provided with an AC outlet to which grounded earth side wiring, hot side wiring and protective earth side wiring are connected. First and second voltage detection circuits for detecting voltages between the hot side wiring and the ground side wiring and between the hot side wiring and the protective ground side wiring, respectively, and the hot side wiring connected to the second voltage detection circuit. And a wiring changeover switch for changing the wiring to the ground side wiring.

In the AC outlet wiring test apparatus according to the present invention, the first and second different frequencies transmitted to the AC outlet to which the grounded wiring on the ground side, the wiring on the hot side and the wiring on the protective grounding side are connected. A test signal transmitting circuit that oscillates test signals and sends a first test signal between the ground side wiring and the hot side wiring and a second test signal between the hot side wiring and the protective ground line side wiring, and a ground side A CT transformer that clamps the wiring and the hot-side wiring, a detection circuit that selectively detects the first test signal or the second test signal induced in the CT transformer, and the first test signal or the first test signal detected by the detection circuit. And a test signal receiving circuit having a display circuit for receiving and displaying the test signal according to the second test signal.

[0009]

[Function] The voltage between the hot side wire and the ground side wire and between the hot side wire and the protective earth side wire is first measured through the AC outlet to which the grounded ground side wire, the hot side wire and the protective earth side wire are connected. The first and second voltage detection circuits detect each. The wiring on the hot side, which was connected to the second voltage detection circuit, is switched to the wiring on the ground side by the wiring changeover switch.

Further, the first and second test signals of different frequencies sent to the AC outlets to which the grounded wiring on the ground side, the wiring on the hot side, and the wiring on the protective grounding side are respectively oscillated to generate the first test signal. A test signal is sent between the ground side wire and the hot side wire, and a second test signal is sent between the hot side wire and the protective earth line side wire from the test signal transmitting circuit. Clamp the ground side wiring and hot side wiring with a CT transformer.

The first test signal or the second test signal induced in the CT transformer is selectively detected by the detection circuit provided in the test signal receiving circuit. The first test signal or the second test signal detected by the detection circuit is displayed by the display circuit which receives and displays the test signal. In this way, the test can be performed in all cases such as erroneous connection and erroneous disconnection of the earth side wiring, hot side wiring and protective earth side wiring.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an AC outlet wiring test apparatus according to the present invention will be described in detail below with reference to the drawings. As shown in FIG. 1, the AC outlet wiring test apparatus according to the present invention is an AC outlet 1 in which a ground side wiring N grounded E, a hot side wiring H, and a protective ground side wiring G are connected.
To the first and second voltage detection circuits NE ₁ and NE ₂ for detecting the voltage between the hot side wiring and the ground side wiring, and between the hot side wiring and the protective ground side wiring, respectively. A wiring changeover switch SW ₁ for switching the connected hot side wiring to the ground side wiring is provided.

A ground side wiring N grounded E, a hot side wiring H, and a protective ground side wiring G are connected A.
First and second different frequencies transmitted to the C outlet 1
Test signals f ₁ and f ₂ respectively oscillated, and a first test signal is sent between the ground side wire and the hot side wire, and a second test signal is sent between the hot side wire and the protective earth line side wire. Detected by the transmission circuit 4, the CT transformer 20 that clamps the ground-side wiring and the hot-side wiring, the detection circuit 21 and the detection circuit that selectively detect the first test signal or the second test signal induced in the CT transformer. And a test signal receiving circuit 30 having display circuits 24 and 27 for receiving and displaying the test signal in response to the first test signal or the second test signal.

As shown in FIG. 1, the main device EQ ₁ is a power source 1
5, a test signal transmitting circuit 4 provided with a 75 Hz oscillator 2 that oscillates the first test signal f ₁ and a 62.5 Hz oscillator 3 that oscillates the second test signal f ₂ , a wiring changeover switch monitoring circuit 5, a wiring changeover switch SW ₁ , NH side neon lamp NE ₁ , G.
H side neon lamp NE ₂ , N.H side rectification circuit 6, N.H side A / D conversion circuit 7, GH side rectification circuit 8, GH side A / D
Conversion circuit 9, data switching circuit 10, memory area M ₁ ,
A data memory 11 having M ₂ , M ₃ , and M ₄ , an LCD interface 12, and an LCD display circuit 13 are provided.

The (-) side of the power supply 15 is connected to the reference potential point, and the (+) side supplies the power supply + B to each circuit via the power switch 15a. N side blade receiver 1 of AC outlet 1
A ground side wiring N, a hot side wiring H, and a protective ground side wiring G are connected to the a and H side blade receivers 1b and the ground side blade receiver 1c, respectively.

_One normally-closed contact and the other normally-open contact of the wiring changeover switch SW ₁ are connected to each other, and are connected to the N-side blade receiver 1a of the AC outlet 1 through a fuse 14a. _One normally open contact and the other normally closed contact of the wiring changeover switch SW ₁ are connected to each other, and are connected to the H side blade receiver 1b of the AC outlet 1 via the fuse 14b.
One ends of the fuses 14a and 14b and the ground-side blade receiver 1c are respectively connected to the first and second oscillators 2 and 3 via capacitors C ₁ , C ₂ , C ₃ and C ₄ provided in the test signal transmitting circuit 4. Is connected to the output side of.

One switching contact and the other switching contact of the wiring changeover switch SW ₁ are connected to the control side of the data changeover circuit 10 via the wiring changeover switch monitoring circuit 5. One switching contact of the wiring changeover switch SW ₁ is connected to one end of the neon lamp NE ₁ , and the other end is connected to the resistor R ₃ via the resistor R _3.
2 , connected to the other switching contact of the wiring changeover switch SW ₁ via R ₁ .

The ground side blade receiver 1c of the AC outlet 1 is connected to one end of the neon lamp NE ₂ , and the other end thereof is connected to the connection point of the resistors R ₂ and R ₁ . The other end of the neon lamp NE ₁ is connected to one data switching side of the data switching circuit 10 via the N.H side rectifying circuit 6 and the N.H side A / D conversion circuit 7, and one of the data switching circuit 10 is connected. The normally closed side and the normally open side are connected to memory areas M ₁ and M ₃ provided in the data memory 11.

The other end of the neon lamp NE ₂ is connected to the other data switching side of the data switching circuit 10 via the GH side rectifying circuit 8 and the GH side A / D conversion circuit 9, and the data switching circuit 10 is connected. The other normally closed side and the normally open side are connected to the memory areas M ₂ and M ₄ provided in the data memory 11. Output sides of the memory areas M _{1 to} M ₄ provided in the data memory 11 are connected to an LCD display circuit 13 via an LCD interface 12.

The test signal receiving circuit 30 is the CT transformer 2.
0, a detection circuit 21 composed of an active filter,
First test signal amplifier 22, light emitting diode drive circuit 2
3, red light emitting diode 24, second test signal amplifier 25,
It has a light emitting diode drive circuit 26, a green light emitting diode 27 and a power source 29, and the output side of the power source 29 is the power switch 2
Power supply + B is supplied to each circuit via 9a.

The output side of the CT transformer 20 which clamps the ground side wiring N and the hot side wiring H is the test signal receiving circuit 3
0 is connected to the input side of the detection circuit 21. One output side of the detection circuit 21 is connected to the anode of the red light emitting diode 24 via the first test signal amplifier 22 and the light emitting diode drive circuit 23, and the cathode of the red light emitting diode 24 is connected to the reference potential point.

The other output side of the detection circuit 21 is connected to the anode of the green light emitting diode 27 via the second test signal amplifier 25 and the light emitting diode drive circuit 26, and the cathode of the green light emitting diode 27 is connected to the reference potential point. ing. In such an AC outlet wiring test device,
Power switch 15 of power supply 15 of main device EQ ₁ shown in FIG.
a and the power supply switch 29a of the power supply 29 provided in the test signal receiving circuit 30 are closed to start the test.

When the power switch 15a of the power source 15 of the main unit EQ ₁ shown in FIG. 1 is closed, the power source + B is supplied to each circuit of the main unit EQ ₁ . When the neon lamp NE ₁ is turned on when the wiring changeover switch SW ₁ is not switched, one of the switching sides of the data switching circuit 10 is switched via the N.H side rectifying circuit 6 and the N.H side A / D conversion circuit 7. Data is sent to the memory area M ₁ provided in the data memory 11 from one normally closed side of the data switching circuit 10.

At the same time, when the neon lamp NE ₂ is turned on, data is sent to the other switching side of the data switching circuit 10 via the GH side rectifying circuit 8 and the GH side A / D conversion circuit 9. Data is stored in the memory area M ₂ provided in the data memory 11 from the other normally closed side of the data switching circuit 10. In this case, no data is stored in the memory areas M ₃ and M ₄ .

The memory areas M ₃ and M ₄ are used when the wiring changeover switch SW ₁ is switched. Neon lamp NE _1, if the NE ₂ wiring changeover switch SW ₁ is not switched tested lit in test (OP ₁₎ TM _A is "1,1", and LCD display circuit 13 as shown in FIG. 2 for example "Test successful" is displayed. Since "test is normal" includes information of the "non-E cross" and "non-protected ground side wiring G disconnection" in, there is no need to perform OP ₂ when wiring changeover switch SW ₁ is switched However, if OP ₂ is executed, it becomes “1, 0”.

The "test is normal" does not include erroneous wiring in which the ground side wiring N and the hot side wiring G are reversed. DOO Hot-side wiring H and the ground-side wire N is erroneously been reverse wiring as shown in runs test TM _B, the state where the wiring changeover switch SW ₁ is not switched (OP ₁₎ the lighting neon lamp NE ₂ Instead, the neon lamp NE ₁ lights up.

Further, when the wiring changeover switch SW ₁ is switched (OP ₂ ), the neon lamps NE ₁ and NE
₂ is turned on, the test TM _B is "1, 0, 1, 1". As a result, the LCD display circuit 13 displays "the wiring H on the hot side and the wiring N on the ground side are reverse". As in the case of the test TM _A , the information of “not E disconnection” and “not protective earth side wiring G disconnection” is included.

The protective earth side wiring G shown in the case of disconnection is executed test TM _C is, in OP ₁ neon lamp NE ₁
Lights up and the neon lamp NE ₂ does not light up, so OP ₁ becomes “1, 0”. Also in OP ₂ , the neon lamp NE ₁ is turned on and the neon lamp NE ₂ is not turned on, so OP ₂ is also "1, 0", and the LCD display circuit 13 displays "wiring G on the protective earth side". If OP ₂ is “0, 1”, it means “E disconnection”, and accordingly, LCD display circuit 1
It is displayed in 3.

When the hot side wiring H and the protective earth side wiring G are reversed as shown in and, the test TM
_D next line changeover switch SW ₁ is not lit neon lamp NE ₁ the OP ₁ is not switching, the neon lamp NE ₂ is turned OP ₁ becomes "0". Further, even in OP ₂ , the neon lamp NE ₁ does not light up, but only the neon lamp NE ₂ lights up, so OP ₂ also becomes “0, 1”, and “the wiring H on the hot side and the wiring G on the protective earth side reverse”. It is displayed on the display circuit 13. If OP ₂ is “0, 0”, it means “E disconnection”.
It is displayed on the D display circuit 13.

That is, the test TM _A based on OP ₁ and OP ₂ is “ ₁ , ₁ , ₁ , 0”, and the test TM _B is “1, 0, 1,
1 ", the test TM _C is" 1, 0, 1, 0 ", and the test TM _D is" 0, 1, 0, 1 ", and" E "is given in _one OP ₁ and OP _2.
The test result including the "disconnection" is known. Therefore, if a separate start button is provided and OP ₁ and OP ₂ are started at predetermined time intervals, the switching of the wiring changeover switch SW ₁ can be automated.

When the power switch 15a of the power supply 15 of the main unit EQ ₁ shown in FIG. 1 is closed and the power + B is supplied to each circuit of the main unit EQ ₁ , the 75 Hz oscillator provided in the test signal transmitting circuit 4 is provided. 2 and the 62.5 Hz oscillator 3 start oscillating, the first test signal f _{1 is applied} to the ground side wiring N and the hot side wiring H, and the second test signal f _{2 is applied} to the hot side wiring H and the protective earth line side wiring G. to be sent through the capacitor _{-C 1, C 2, C 3} , C 4.

As shown in FIG. 3, when the first and second test signals f ₁ and f ₂ are applied to the ground side wiring N and the hot side wiring H, and to the hot side wiring H and the protective ground side wiring G, respectively. The 1-test signal f ₁ is canceled by the CT transformer 20 that clamps the ground-side wiring N and the hot-side wiring H in opposite phases, and the second test signal f ₂ is sent to the test signal receiving circuit 30.

The detection circuit 21 of the test signal receiving circuit 30 is
The input second test signal f ₂ is selectively detected and sent to the green light emitting diode 27 via the second test signal amplifier 25 and the light emitting diode drive circuit 26, so that the green light emitting diode 27 emits light and the wiring is normal. Is displayed.
In the incorrect wiring in which the ground-side wiring N and the protective ground-side wiring G are reversed as shown in and of FIG. 4, the second test signal f ₂ is canceled by the CT transformer 20 in the opposite phase, and the first test signal is canceled. f ₁ is sent to the test signal receiving circuit 30.

The detection circuit 21 of the test signal receiving circuit 30 is
Since the input first test signal f ₁ is selectively detected and sent to the red light emitting diode 24 via the first test signal amplifier 22 and the light emitting diode drive circuit 23, the red light emitting diode 24 emits light and the wiring is abnormal. Is displayed.
The frequencies of the first test signal f ₁ and the second test signal f ₂ are not limited to those in the above embodiment.

[0035]

As is apparent from the above description, according to the AC outlet wiring test apparatus of the present invention, the ground side wiring, the hot side wiring, and the protective earth side wiring, which are grounded, are connected via the AC outlet. First and second voltage detection circuits for detecting voltages between the hot side wiring and the ground side wiring and between the hot side wiring and the protective ground side wiring, respectively, and the hot side wiring connected to the second voltage detection circuit. Since it is equipped with a wiring changeover switch for switching to the ground side wiring, it is possible to test the wrong connection and disconnection of the ground side wiring, the hot side wiring and the protective ground side wiring.

Further, the first and second test signals having different frequencies sent to the AC outlets to which the grounded wiring on the ground side, the wiring on the hot side and the wiring on the protective grounding side are connected are oscillated to generate the first test signal. A test signal transmission circuit that sends a test signal between the ground side wiring and the hot side wiring and a second test signal between the hot side wiring and the protective ground line side wiring, and a CT transformer that clamps the ground side wiring and the hot side wiring. ,
A test circuit for selectively detecting the first test signal or the second test signal induced in the CT transformer and the test signal received and displayed by the first test signal or the second test signal detected by the detection circuit Since the test signal receiving circuit having the display circuit is provided, it is possible to detect the reverse of the earth side wiring and the protective earth side wiring which are not detected by the conventional test.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of an AC outlet wiring test apparatus according to the present invention.

FIG. 2 is a block diagram showing the operating principle of the AC outlet wiring test apparatus according to the present invention.

FIG. 3 is a block diagram showing the operating principle of the AC outlet wiring test apparatus according to the present invention.

FIG. 4 is a block diagram showing the operating principle of the AC outlet wiring test apparatus according to the present invention.

FIG. 5 is a block diagram showing a conventional AC outlet wiring test apparatus.

[Explanation of symbols]

1 ... AC outlet 4 Test signal transmission circuit NE ₁ Neon lamp (first voltage detection circuit) NE ₂ Neon lamp (No. 2 voltage detection circuit) SW ₁ ··· Wiring changeover switch 20 ··· CT transformer 21 ··· detection circuit 24 ··· Red light emitting diode (display circuit) 27・ ・ ・ Green light emitting diode (display circuit) 30 ・ ・ ・ ・ ・ Test signal receiving circuit f ₁・ ・ ・ ・ ・ ・ First test signal f ₂・ ・ ・ ・ ・ ・ Second test signal N ・・ ・ ・ Earth side wiring H ・ ・ ・ Hot side wiring G ・ ・ ・ ・ ・ ・ Protective earth side wiring

Claims (2)

[Claims] 1. An AC outlet (1) to which an earth side wiring (N) grounded (E), a hot side wiring (H) and a protective earth side wiring (G) are connected to the hot side wiring (N). First and second detecting voltages between the ground side wiring and between the hot side wiring and the protective ground side wiring, respectively.
Voltage detection circuits (NE ₁ , NE ₂ ) and a wiring changeover switch (SW ₁ ) for switching the hot side wiring connected to the second voltage detection circuit to the ground side wiring. AC outlet wiring test equipment. 2. A grounding (E) ground side wire (N), a hot side wire (H) and a protective earth side wire (G) are connected to an AC outlet (1) to which different frequencies are sent. First and second test signals (f ₁ , f ₂ ) are oscillated, the first test signal is between the ground side wiring and the hot side wiring, and the second test signal is between the hot side wiring. A test signal transmitting circuit (4) for sending between the protective ground wire side wires, a CT transformer (20) for clamping the ground side wire and the hot side wire, and the first test signal induced in the CT transformer. Alternatively, a detection circuit (21) for selectively detecting the second test signal and a display circuit (24) for performing a test signal reception display by the first test signal or the second test signal detected by the detection circuit (24). Two
And a test signal receiving circuit (30) having 7).