JPH08122389A - Leak detector - Google Patents

Abstract

PURPOSE: To obtain a leak detector for detecting leak from a motor tool during operation thereof. CONSTITUTION: A power introduction plug 11 to be connected with a receptacle 31 of a power supply 37 and a power supply receptacle 21 to be connected with a motor tool 40 are led out from a leak detector body 20. One conduction terminal 12 of the power introduction plug 11 is connected with one conduction terminal 22 of the power supply receptacle 21 through a cord 47. The other conduction terminal 13 of the power introduction plug 11 is connected with the other conduction terminal 23 of the power supply receptacle 21 through a cord 48. Ground terminals 14, 24 of the power introduction plug 11 and the power supply receptacle 21 are connected through a cord 49. Conduction terminals 12, 22 thereof are connected through a cord 25 with the leak detector body 20 while other conduction terminals 13, 23 are connected through a cord 26 with the leak detector body 20 and the ground terminals 14, 24 are connected through a cord 27 with the leak detector body 20.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ground fault detector for checking the presence / absence of ground faults in electric tools and electric devices such as electric drills, electric saws, electric screwdrivers and compressors used in construction sites and other work sites. It is a thing.

[0002]

2. Description of the Related Art A conventional leak detector 38 has a built-in power supply. Two contact rods 19 and 29 are pulled out from the earth leakage detector 38.

3 and 4 illustrate a conventional leak detector 38. The earth leakage detector 38 is connected to the detection terminal 7 to which the terminal 69 of the withdrawal cord 18 of the contact rod 19 is connected.
There are an insertion hole 71 in which 3 is accommodated, and an insertion hole 75 in which a grounding terminal 74 for connecting the terminal 70 of the lead cord 27 of the contact rod 29 is accommodated.

In the plug 41 of the electric tool 40, a grounding terminal 44 of the grounding cord 35 is drawn out in addition to the current-carrying terminals 42 and 43 to be connected to the power-supply-side powering terminals.
The grounding terminal 44 of the grounding cord 35 is provided on the plug 41 together with the energizing terminals 42 and 43. on the other hand,
In addition to the energizing terminal, a grounding terminal is also provided in the outlet on the power supply side. When the plug 41 is inserted into the outlet on the power supply side, the grounding terminal 44 of the electric tool 40 automatically becomes the grounding terminal of the power outlet. It is designed to be connected to and grounded. Therefore, in the recent power tool 40,
You don't have to search for where to get the ground one by one, unlike the conventional products.

In the figure, reference numerals 51 and 52 denote energizing cords that are drawn from the electric power tool 40 and continue to the energizing terminals 42 and 43 of the plug 41. 67 is a lamp that lights up when an electric leakage is detected. Reference numeral 68 is a buzzer that issues an alarm when a leak is detected.

When checking the electric tool 40 such as an electric drill or an electric saw for electric leakage, the contact rod 19 connected to the detection terminal 73 of the electric leakage detector 38 is placed against the metal frame 39 of the electric tool 40. Grounding terminal 74 of earth leakage detector 38
The contact rod 29 connected to the terminal 70 is brought into contact with the grounding terminal 44 of the electric tool 40 to confirm the operation of the earth leakage detector 38. Next, the contact rods 29 of the earth leakage detector 38 are successively applied to the energizing terminals 42 and 43 of the electric power tool 40, and each time the electric current flows between the energizing cords 51 and 52 and the metal frame 39 of the electric power tool 40. The lamp 67 blinks and the buzzer 6
Check by the alarm of 8.

[0007]

As described above, in the conventional earth leakage detector 38, one contact rod 29 is brought into contact with the grounding terminal 44 and the energizing terminals 42 and 43 of the plug 41 of the electric power tool 40 one after another. Since the electric power tool 40 is inspected for the presence of electric leakage, the plug 41 of the electric power tool 40 cannot be inserted into the outlet on the power supply side at the time of the inspection, and therefore the electric power tool 40 in operation cannot be inspected for electric leakage. .

[0008]

SUMMARY OF THE INVENTION Accordingly, the present invention is directed to an operating power tool 40.
It is an object of the present invention to provide an earth leakage detector capable of examining the presence or absence of earth leakage.

[0009]

An earth leakage detector 53 according to the present invention comprises (a) a power introduction plug (11) connected to an outlet (31) of a power supply (37), and an electric power tool (4).
0) has an outlet (21) for supplying power,
(B) The power introduction plug (11) and the power supply outlet (21) are respectively provided with energizing terminals (12, 13).
・ 22 ・ 23) and grounding terminals (14 ・ 24)
(C) Power supply plug (11) energizing terminal (1
2) and power supply outlet (21) energizing terminal (2)
2) are connected by an energizing cord (47), and (d) another energizing terminal (13) of the power introducing plug (11) and another energizing terminal (21) of the power supply outlet (21). 23) is connected by another energizing cord (48), and (e) the grounding terminal (14) of the power introduction plug (11) and the grounding terminal (24) of the power supply outlet (21). Are connected by a grounding cord (49), and (f) the power introduction plug side (11)
The power-supplying terminal (12) of the power-supplying plug (11) is connected to the other power-supplying terminal (1) by the power-supplying cord (25).
3) is another energizing cord (26), and the grounding terminals (14, 24) are grounding cords (27).
Each is connected to the main body 20 of the earth leakage detector, (g)
Power supply plug (11) energizing terminal (12.1)
3) and the power supply outlet (21) energizing terminal (2)
A current transformer (50) for detecting a leakage current flowing through the energizing cords (47, 48) is set in the energizing cords (47, 48) connecting the H. 2.23), and (h)
The current transformer (50) is connected to the ground fault detector main body 20, and (i) the metal frame (3) of the power tool (40).
The first feature is that the contact rod (19) for contacting with 9) is pulled out from the earth leakage detector main body (20).

A second feature of the present invention is that, in the leakage detector (53) having the above-mentioned first feature, the grounding terminal (14) of the power introduction plug (11) is connected to the power supply outlet (21). That is, the spare grounding terminal (75) connected to the grounding cord (49) following the grounding terminal (24) is taken out.

A third feature of the present invention is that, in the leakage detector (53) having the above-mentioned first feature, the power-supplying plug (11) has a power supply terminal (12, 13) and a power supply outlet (21). ) Is connected to the energizing terminals (22, 23) of the energizing cords (47, 48) in the middle of the switch (61.
62) intervenes.

A fourth feature of the present invention is that, in the ground fault detector (53) having the above-mentioned third feature, the grounding terminal (14) of the power introducing plug (11) is connected to the power supply outlet (21). That is, the spare grounding terminal (75) connected to the grounding cord (49) following the grounding terminal (24) is taken out.

A fifth feature of the present invention is that the current transformer (50) of the ground fault detector (53) having the above-mentioned third feature includes an outlet (21) for power supply and a switch (61, 62). Power supply cord (47.4) connecting the power supply terminals (12, 13) of the power supply plug (11) and the power supply terminals (22, 23) of the power supply outlet (21) between
It is set to 8).

A sixth feature of the present invention is that the earth leakage detector (53) having the above-mentioned third feature is activated when the contact rod (19) and the grounding cord (27) are connected to each other to activate the power introducing plug ( A switch (61.6) interposed in an energizing cord (47, 48) connecting the energizing terminal (12, 13) of 11) and the energizing terminal (22, 23) of the power supply outlet (21).
2) is provided with an electric circuit 46 for on / off operation.

[0015]

The present invention will be described below with reference to the illustrated embodiments. FIG. 1 is a conceptual diagram of an earth leakage detector 53 according to an embodiment of the present invention. FIG. 2 is a perspective view of the ground fault detector 53 according to the embodiment of the present invention. 20 is the main body of the earth leakage detector,
As the leakage detection circuit, the leakage detection circuit used in the conventional leakage detector 38 is used. Earth leakage detector 53
From this, a power introduction plug 11 connected to the outlet 31 of the power source 37 and a power supply outlet 21 connected to the electric tool 40 are drawn out.

Reference numerals 12 and 13 are energizing terminals of the power introducing plug 11. Reference numerals 22 and 23 denote energizing terminals of the power supply outlet 21. The energizing terminal 12 of the power introducing plug 11 and the energizing terminal 22 of the power supply outlet 21 have an energizing cord 4 with a switch 61 interposed therebetween.
Connected by 7. The energizing terminal 13 of the power introducing plug 11 and the energizing terminal 23 of the power supply outlet 21 are connected by an energizing cord 48 in which a switch 62 is interposed.

Reference numeral 14 is a grounding terminal of the power introducing plug 11. Reference numeral 24 is a grounding terminal of the power supply outlet 12. Grounding terminal 14 of the power introduction plug 11
And the ground terminal 24 of the power supply outlet 21 are connected by a ground cord 49. From the grounding terminal 14 of the power introduction plug 11 to the power supply outlet 1
A spare grounding terminal 75 is taken out from the grounding cord 49 following the second grounding terminal 24.

The power introduction plug 11 of the power supply cord 47 for connecting the power supply terminal 12 of the power supply plug 11 and the power supply terminal 22 of the power supply outlet 21 and the switch 6
Between 1 and the cord 2 for energization following the main body 20 of the earth leakage detector
5 is connected. Between the switch 62 and the power introduction plug 11 of the power supply cord 48 that connects the power supply terminal 13 of the power supply plug 11 and the power supply terminal 23 of the power supply outlet 21, the power supply continuing to the main body 20 of the leakage detector is provided. The cord 26 is connected. A grounding cord 49 connecting the grounding terminal 14 of the power introduction plug 11 and the grounding terminal 24 of the power supply outlet 21 is connected to a grounding cord 27 following the ground fault detector main body 20.

The power-supplying plug 11 has a current-carrying terminal 12
13 and energizing terminals 22.2 of the power supply outlet 21
The current-carrying cords 47 and 48 that connect the three are current transformers 5 that detect leak currents flowing through the current-carrying cords 47 and 48.
0 is a power supply outlet 21 and switches 61 and 62
Is set between. That is, the current transformer 50 senses a magnetic field generated around the energizing cord 47 and a magnetic field generated around the energizing cord 48 due to the flow of an electric current, and electric power tools connected to the energizing cords 47 and 48. When 40 is leaked and the currents flowing through the energizing cords 47 and 48 are changed, the difference between the magnetic field around the energizing cord 47 and the magnetic field around the energizing cord 48 caused by the change in the current is detected. Send a detection signal to the main body 20
The leakage detector main body 20 detects the leakage by the detection signal.

Reference numeral 41 is a power source extraction plug of the electric tool 40. Energizing cord 5 drawn from the power tool 40
The current-carrying terminals 42 and 43 of 1/52 and the grounding terminal 44 of the grounding cord 35 connect the power supply plug 41 to the insertion holes 54 and 55 of the power supply outlet 21 of the ground fault detector 53.
When plugged into 56, each outlet 21 for power supply
Are connected to the energizing terminals 22 and 23 and the grounding terminal 24.

Reference numeral 31 is an outlet of the power source 37. When the power introduction plug 11 of the electric leakage detector 53 is inserted into the insertion hole of the outlet 31, the electricity supply terminals 12 and 13 of the electricity introduction plug 11 become the electricity supply terminals 32 of the outlet 31.
・ Connected to 33, grounding terminal 1 of power introduction plug 11
4 is connected to the grounding terminal 34 of the outlet 31.

From the earth leakage detection circuit of the earth leakage detector main body 20, a detection terminal 16 for connecting the terminal 69 of the contact rod 19 is drawn out. In the body 20 of the earth leakage detector, the detection terminal 16 and the grounding cord 27 (the power introduction plug 11
A relay circuit 46 that operates when the grounding terminal 14, the grounding terminal 24 of the power supply outlet 21, and the grounding cord 49) are connected is incorporated. This relay circuit 46
When it operates, it sends the instruction signal 36 to the switches 61 and 62.
To the switch 61.6 by the instruction signal 36.
2 is in the "ON" state, and it becomes possible to energize between the energizing terminals 12 and 13 of the power introduction plug 11 and the energizing terminals 22 and 23 of the power supply outlet 21.

In FIG. 2, reference numeral 58 is an insertion hole into which the terminal 69 of the contact rod 19 is inserted. When the terminal 69 of the contact rod 19 is inserted into the insertion hole 58, the contact rod 1 is connected to the detection terminal 16 drawn out from the earth leakage detection circuit of the earth leakage detector main body 20.
9 is connected.

Reference numeral 67 is an energization confirmation lamp of the earth leakage detector 53. When the power introduction plug 11 is inserted into the outlet 31 of the power supply 37 and a switch (not shown) is turned on, the energization confirmation lamp 67 is turned on. It has become.
Reference numeral 68 is a buzzer that emits an alarm sound when an electric leakage is detected.

In the embodiment shown in FIG. 2, the power supply outlet 21 is pulled out to the outside of the case 63 of the ground fault detector 53 by a cord. However, the power supply outlet 21 is thus provided in the case 63. It is also possible to provide it on the case 63 of the electric leakage detector 53 without pulling it out with a cord.

[0026]

When the electric tool 40 such as an electric drill or an electric saw is to be checked for leakage, first, the power introduction plug 11 is inserted into the outlet 31 of the power source 37 and the switch (not shown) is turned on to turn on the lamp 67. It is confirmed that the leakage detector 53 is energized by lighting and at the same time, the contact rod 19 is inserted into the insertion hole 58.
The terminal 69 is inserted to connect the contact rod 19 to the detection terminal 16, and the plug 41 of the electric tool 40 is inserted into the power supply outlet 21. Next, the contact rod 19 is attached to the power tool 4
It is applied to the metal frame 39 of 0.

Then, since the detection terminal 16 and the grounding cord 27 are connected via the cord 18, the contact rod 19, the metal frame 39 and the grounding cord 49, the relay circuit 46 operates and the instruction is given. A signal 36 is transmitted to the switches 61 and 62, and the switches 61 and 62 are turned on by the instruction signal 36, and the power supply terminals 12 and 13 of the power introduction plug 11 and the power supply outlet 21 are supplied with power. It becomes possible to energize between the terminals 22 and 23.

When the switch (not shown) of the power tool 40 is turned on in this state, the energizing terminals 12 and 13 of the power introduction plug 11 and the energizing terminals 22 and 23 of the power supply outlet 21 are connected. The electric current flows through the energizing cords 47 and 48, and the electric power tool 40 operates. In that case, if the power tool 40 is leaking, the
An abnormal current flows through 7.48, and the difference between the magnetic field around the energizing cord 47 and the magnetic field around the energizing cord 48 caused by the abnormal current is detected by the current transformer 50, and the current transformer 50 detects the difference. The leak detector main body 20 detects a leak by the transmitted detection signal, and the buzzer 68 emits an alarm sound. Therefore, the electric leakage of the power tool 40 will be detected when it is actually operating.

The energizing cords 47, 48, 51, 52
If the wire is broken, the power tool 40 does not operate.
Further, when the grounding cords 49 and 35 are broken, the relay circuit 46 does not operate, so that the switches 61 and 62 are not in the "ON" state, and the energizing terminals 12 and 13 of the power introducing plug 11 are not. Since the connection between the power supply outlet 21 and the power supply terminals 22 and 23 remains disconnected, the power tool 40 does not operate in this case as well. Therefore, the electric leakage detector 53 according to the embodiment detects not only the electric leakage of the electric power tool 40 but also whether or not the electric tool 40 is broken.

A relay circuit 46 is attached to the main body 20 of the leakage detector.
If is not incorporated, the on / off operation of the switches 61 and 62 is to be done manually. Further, when the switches 61 and 62 are not set in the energizing cords 47 and 48 that connect the energizing terminals 12 and 13 of the power introduction plug 11 and the energizing terminals 22 and 23 of the power supply outlet 21, the switches 61 and 62 are set. When (not shown) is turned on and the electric tool 40 is operated, the presence or absence of electric leakage or disconnection of the electric tool 40 will be detected.

The power tool 40 is a conventional one in which a metal clip is attached to the tip of the grounding cord 35, and the insertion hole 5 in which the grounding terminal 24 of the power supply outlet 12 is housed.
If it does not have the grounding terminal 44 to be plugged into 6, the metal clip is connected to the auxiliary grounding terminal 75. The power tool 40 according to the above-described embodiment is driven by a two-phase current. However, when the power tool 40 is driven by a three-phase current, the power introduction plug and the power supply outlet are energized. The number of terminals for each is three.

[0032]

As described above, the earth leakage detector 53 according to the present invention.
Is a cord 51 for energizing the power tool 40 like the conventional product.
Instead of connecting between 52 and the metal frame 39 to detect whether or not an electric current flows, the leakage detector inside (53) is connected to the energizing cords 51 and 52 of the power tool 40.
The current transformer 5 determines whether or not there is a leakage current in the energizing cords 47 and 48 of the
Since it is detected by 0, it is possible to check the presence or absence of electric leakage in the actual state in which the electric power tool 40 is operating.

Further, the detection terminal 16 and the grounding cord 27
When the relay circuit 46 is connected, the relay circuit 46 is incorporated, and the relay circuit 46 operates to send the instruction signal 36 to the switch 61.
・ Send to 62 and switch 6 by the instruction signal 36
1.62 is in the "ON" state and the power introduction plug 1
1 energizing terminals 12 and 13 and power supply outlet 21
Since it is possible to energize between the energizing terminals 22 and 23, the leakage detector 53 detects not only the disconnection of the energizing cords 47, 48, 51 and 52 but also the disconnection of the grounding cords 49 and 35. It becomes detectable.

In the earth leakage detector 53 according to the embodiment of the present invention, the spare grounding terminal 7 connected to the grounding cord 49 is used.
Since 5 protrudes from the power supply outlet 12,
The power tool 40 is a conventional product in which a metal clip is attached to the tip of the grounding cord 35 and does not have the grounding terminal 44 to be inserted into the insertion hole 56 in which the grounding terminal 24 of the power supply outlet 12 is housed. Even if there is, the metal clip (crocodile) can be sandwiched between the spare grounding terminals 75 to check the presence or absence of electric leakage.

Further, since the ground fault detector 53 has the power supply outlet 21 into which the plug 41 for powering the electric power tool 40 can be inserted, it is possible to check the presence or absence of ground leakage even in a work site where there is only one power outlet 31. . Further, according to the present invention, when the power introducing plug 11 is inserted into the outlet 31 of the power source 37, the electric leakage detector 53 is automatically detected.
Since the earth is grounded, the earth leakage detector 5 can be used even when the work site is surrounded by an insulating floor material or an insulating wall material.
3 can be used.

It should be noted that although the items corresponding to the numbers shown in the drawings are added to the items described in the claims section of this specification, the added numbers mean the contents of this specification. This is for the purpose of facilitating the description, and the added number does not mean that the items described in the appended claims are limited to the items described in the drawings.

[Brief description of drawings]

FIG. 1 is a conceptual diagram of an earth leakage detector according to an embodiment of the present invention.

FIG. 2 is a perspective view of an earth leakage detector according to an embodiment of the present invention.

FIG. 3 is a conceptual diagram of a conventional earth leakage detector.

FIG. 4 is a perspective view of a conventional ground fault detector.

[Explanation of symbols]

 11 Power Supply Plug 12 Current-carrying Terminal 13 Current-carrying Terminal 14 Grounding Terminal 16 Detecting Terminal 18 Code 19 Contact Rod 20 Leakage Detector Main Body 21 Power Supply Outlet 22 Current-carrying Terminal 23 Current-carrying Terminal 24 Grounding Terminal 25 Current-carrying Cord 26 energizing cord 27 grounding cord 29 contact rod 31 power outlet 32 powering terminal 33 energizing terminal 34 grounding terminal 35 grounding cord 36 instruction signal 37 power supply 38 conventional earth leakage detector 39 metal frame 40 power tool 41 Plug 42 Energizing terminal 43 Energizing terminal 44 Grounding terminal 46 Relay circuit 47 Energizing cord 48 Energizing cord 49 Grounding cord 50 Current transformer 51 Energizing cord 52 Energizing cord 53 Leakage detector 54 Insert hole 55 Difference Insertion hole 56 Insertion hole 58 Insertion hole 61 Switch 62 Switch 63 Case 67 lamp 68 buzzer 69 code of the terminal 70 code of the terminal 71 insertion hole 73 detection terminal 74 ground terminal 75 ground terminal

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hirofumi Oi 11 at 610 Nakata-cho, Izumi-ku, Yokohama-shi, Kanagawa

Claims (6)

[Claims] 1. A power introduction plug (11) for connecting to an outlet (31) of a power supply (37), and an electric power tool (40).
And a power supply outlet (21) for connecting to the power supply plug (11) and a power supply outlet (2).
1) are terminals for energization (12, 13, 22, 2)
3) and a grounding terminal (14, 24), and the energizing terminal (12) of the power introduction plug (11) and the energizing terminal (22) of the power supply outlet (21) have an energizing cord ( 47), the other energizing terminal (13) of the power introducing plug (11) and the other energizing terminal (23) of the power supply outlet (21) are connected to the other energizing cord (48). And the grounding terminal (14) of the power introduction plug (11) and the grounding terminal (24) of the power supply outlet (21) are connected by the grounding cord (4).
9) connected by the power introduction plug side (1
The energizing terminal (12) of 1) is connected by the energizing cord (25), and the other energizing terminal (13) of the power introduction plug side (11) is formed by the other energizing cord (26). 14 ・ 24) by the grounding cord (27)
Each is connected to the main body 20 of the earth leakage detector, and the energizing terminals (12, 13) of the power introduction plug (11) and the energizing terminals (22, 23) of the power supply outlet (21).
A current transformer (50) for detecting a leakage current flowing through the current-carrying cords (47, 48) is set to the current-carrying cords (47, 48) connecting the current-carrying cords (47, 48). The power tool (4
A ground fault detector, wherein a contact rod (19) for contacting the metal frame (39) of (0) is pulled out from the ground fault detector body (20). 2. The earth leakage detector (5 according to claim 1 above.
In 3), a spare grounding terminal connected to a grounding cord (49) from the grounding terminal (14) of the power introduction plug (11) to the grounding terminal (24) of the power supply outlet (21). The earth leakage detector according to claim 1, wherein (75) is taken out. 3. A power introduction plug (11) connected to an outlet (31) of a power supply (37), and a power tool (40).
And a power supply outlet (21) for connecting to the power supply plug (11) and a power supply outlet (2).
1) are terminals for energization (12, 13, 22, 2)
3) and a grounding terminal (14, 24), and the energizing terminal (12) of the power introduction plug (11) and the energizing terminal (22) of the power supply outlet (21) are interposed by the switch 61. Are connected by an energizing cord (47), and the other energizing terminal (1) of the power introducing plug (11)
3) and the other energizing terminal (23) of the power supply outlet (21) are connected by another energizing cord (48) interposed by the switch 62, and the grounding terminal of the power introducing plug (11). (14) and the grounding terminal (24) of the power supply outlet (21) are grounding cords (49)
Connected by the power introduction plug side (11)
The power-supplying terminal (12) of the power-supplying plug (11) is connected to the other power-supplying terminal (1) by the power-supplying cord (25).
3) is connected to the earth leakage detector main body 20 by another energizing cord (26) and the grounding terminals (14, 24) are connected by the grounding cord (27), respectively. Leakage flowing through the energizing cords (47, 48) to the energizing cords (47, 48) that connect the energizing terminals (12, 13) to the energizing terminals (22, 23) of the power supply outlet (21). A current transformer (50) for detecting an electric current is set, and the current transformer (50) is connected to the ground fault detector main body 20, and an electric power tool (40).
Contact rod (1) for contacting the metal frame (39) of
An electric leakage detector characterized in that 9) is pulled out from the earth leakage detector main body (20). 4. The earth leakage detector (5 according to claim 3 above.
In 3), a spare grounding terminal connected to a grounding cord (49) from the grounding terminal (14) of the power introduction plug (11) to the grounding terminal (24) of the power supply outlet (21). The earth leakage detector according to claim 3, wherein (75) is taken out. 5. The current transformer (50) according to claim 3 above.
However, there is a power supply outlet (21) and a switch (61.
62) between the power supply plug (11) and the power supply terminals (12, 13) and the power supply outlet (2).
The earth leakage detector according to claim 3, wherein the earth leakage detector is set to the electricity supply cord (47, 48) connecting the electricity supply terminals (22, 23) of 1). 6. The earth leakage detector (5 according to claim 3 above.
3) is activated when the contact rod (19) and the grounding cord (27) are connected to operate, and the energizing terminals (12, 13) of the power introduction plug (11) and the energizing terminal of the power supply outlet (21) Energizing cord (47.4) connecting (22.23)
8. The earth leakage detector according to claim 3, further comprising an electric circuit 46 for turning on / off the switches (61, 62) interposed in 8).