KR20080039219A - Trip device of earth leakage breaker - Google Patents

Abstract

A trip device of an earth leakage breaker is provided to implement a compact device by attaching a pop-up type earth leakage display button to an upper portion of an earth leakage trip coil and an up and down slide type trip actuator to a lower portion. A trip device(7) of an earth leakage breaker includes an earth leakage trip coil(8), a trip actuator(9), and a pop-up type earth leakage display button(10). The trip actuator is connected to a plunger of the earth leakage trip coil. The trip device is mounted on a breaker body case and displays an earth leakage trip operation while opening and closing a main circuit contact in detecting an earth leakage. The earth leakage trip coil is a latching type electromagnet. In the earth leakage trip coil, a permanent magnet(8b) and a demagnetizing coil(8c) are installed in a magnetic yoke(8a). The electromagnet is vertically provided. The earth leakage display button is connected to an upper portion of the electromagnet through the plunger of the earth leakage trip coil and the up and down slide type trip actuator pressed upwardly by a trip spring(13) is provided in a lower portion of the trip coil and is connected to the plunger.

Description

Ground fault trip device in ground fault breaker {TRIP DEVICE OF EARTH LEAKAGE BREAKER}

The present invention relates to an assembling structure of an earth leakage trip device mounted in an earth leakage breaker applied to a low voltage distribution system.

First, referring to FIG. 7, a circuit of the earth leakage breaker is shown. In the figure, 1 is the main circuit, 2 is the main circuit contact, 3 is the primary current transformer with primary circuit 1, 4 is the secondary of the current transformer. An earth leakage detection circuit that detects a ground current flowing from the output to the main circuit 1, 5 is an open / close mechanism of the main circuit contact 2, 6 is an open / close operation handle, 7 is an output of the earth leakage detection circuit 4 An earth leakage trip device for receiving a signal and tripping the switch mechanism 5, 8 is a trip coil, 9 is an actuator for tripping the switch mechanism 5 according to the operation of the trip coil 8, and 10 is a short circuit indicating a short circuit trip operation. The display button 11 is a main body case of the breaker, and the external view thereof is shown in FIG.

Next, with reference to FIG. 9, the conventional assembly structure (for example, refer patent document 1) of the said earth leakage trip device 7 is shown. That is, the conventional earth leakage trip device 7 includes a horizontal earth leakage earth leakage trip coil 8, a horizontal slide type trip actuator 9 linked to the trip coil 8, and a popup type earth leakage display button ( 10) is an assembly unit structure in which the assembly base 12 is assembled and attached, and is mounted on the body case 11 together with each functional part shown in FIG.

In Fig. 9, the trip coil 8 is coupled to a magnetic yoke 8a, a permanent magnet 8b, a potato coil 8c, and a movable iron core (not shown) and pulled from the yoke 8a. It becomes a magnetic holding electromagnet consisting of the plunger shaft 8d. On the other hand, the trip actuator 9 is arranged side by side in the lateral direction of the trip coil 8 so as to be slidably guided from side to side, and the push piece 9a protruding laterally from the middle portion of the slide plate is plunger. The pressing piece 9a is pressed against the plunger shaft 8d via the trip spring 13 (compression coil spring), opposite to the tip of the shaft 8d. Moreover, the protrusion 9b is provided in the right end of the trip actuator 9, and is replaced by the trip crossbar 14 of a breaker. In addition, the earth leakage display button 10 is connected to the trip actuator 9 in combination with a display drive spring and a cam mechanism, not shown.

The operation of the ground fault trip device 7 having the above-described configuration is described in detail in Patent Document 1, and when the trip actuator 9 is returned to the reset position shown by the reset operation of the handle 6 (see FIG. 7), The movable iron core of the trip coil 8 receives the magnetic force of the permanent magnet 8b to push the plunger shaft 8d to the right, and the trip actuator 9 and the short-circuit indication button 10 to the retracted positions shown in FIG. Keep bound. On the other hand, in this state, the trip spring 13 is compressed and the spring force is accumulated.

On the other hand, if a ground fault occurs in the distribution system and is detected by the ground fault detection circuit 4 (see FIG. 7), the output signal from the ground fault detection circuit 4 is received and the permanent magnet 8b is provided to the trip coil 8. An excitation current flows into the potato coil 8c so as to demagnetize the magnetic force of the magnet. Accordingly, the spring force accumulated in the trip spring 13 shown in FIG. 9 is released to drive the trip actuator 9 in the arrow direction (left direction) shown, and the projection 9b is the trip crossbar 14. ) Is tripped to open and close the opening / closing mechanism (see FIG. 7) to open the main circuit contact 2. At the same time, the earth leakage display button 10 pops up to protrude outward from the display window (see FIG. 8) opened in the main body case 11.

[Patent Document 1] Japanese Patent Application Laid-open No. H03-219523 (FIGS. 1 and 5)

Currently, the earth leakage circuit breakers produced in Korea generally have a structure in which parts having overcurrent protection and ground fault protection functions are assembled together in a main body case having a unitary structure, and a main body having the same shape and size as the circuit breaker. The main structure is a structure in which each functional part is mounted in a case. In addition, in recent years, in response to the trend to meet the international standard (IEC), the earth leakage breaker is also equipped with additional parts such as a mega test switch, so in order to mount a large number of parts in the main body case having a limited external size, The challenge is to make individual components as compact and compact as possible.

In view of this, the conventional ground fault trip unit shown in FIG. 9 is again assembled, and each component of the trip coil 8, the trip actuator 9, and the ground fault indication button 10 are assembled to the assembly base 12 as independent parts. Since the trip coil 8 and the trip actuator 9 are arranged in the horizontal axis direction, the pop-up type short-circuit leakage display button is arranged in the vertical axis direction. It is difficult to arrange them compactly, so that the trip device becomes large, and it is difficult to accommodate them efficiently in space in the main body case of the circuit breaker.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object thereof is to provide an earth leakage tripping device for an earth leakage breaker that is improved to be miniaturized and compact by arranging components in an articulated manner.

In order to achieve the above object, according to the present invention, there is provided a ground fault trip coil, a trip actuator associated with the plunger of the ground fault trip coil and a pop-up type ground fault indicator button, mounted on the circuit breaker main body case to detect the ground fault. An earth leakage trip device of an earth leakage circuit breaker which opens a circuit contact and displays an earth leakage trip operation,

The earth leakage trip coil is a self-maintaining electromagnet provided with a permanent magnet and a potato coil in a magnetic yoke, and after the electromagnet is arranged in a vertical axis, the earth leakage display button is connected to the upper side through a plunger of the earth leakage trip coil, and a trip spring The above-described shank-type trip actuator pressed by the upper side is arranged on the lower side of the trip coil so as to be connected to the plunger (claim 1), and the detailed structure thereof is specifically configured as follows.

(1) A guide shaft, which is a longitudinal axis, is provided on the trip actuator, and a trip spring is mounted on the axis of the guide shaft, and then guided and supported so as to be movable along the side of the ground fault trip coil (claim 2).

(2) The plunger of the ground fault trip coil is composed of a movable core and a plunger shaft coupled to the movable core, and also connects an earth leakage indicating button to the upper end of the plunger shaft, and simultaneously presses the lower end of the plunger shaft to the trip actuator. and,

In the reset state of the trip actuator, the permanent magnet of the trip coil sucks the moving core in the lowered position, restrains the actuator and the earth leakage indication button in the standby position, and in the event of a short circuit, the magnetic force of the permanent magnet is caused by the excitation current flowing to the potato coil. To release the restraint of the trip actuator and the ground fault indication button (claim 3).

(3) The plunger of the earth leakage trip coil is composed of a cylindrical movable iron core and a plunger shaft loosely fitted to the iron core, and a spring pressurized earth leakage indication button is connected to an upper end of the plunger shaft, and While engaging the lower end to the trip actuator, and interlocking between the movable core and the trip actuator through a latch mechanism that moves in accordance with the movement of the movable iron core,

In the reset state of the trip actuator, the permanent magnet of the trip coil maintains the movable core in the ascending position, and then, through the latch mechanism, the trip actuator and the ground fault indication button are held in the retracted position, and when a short circuit occurs, the permanent magnet of the trip coil is discharged to the potato coil. The latch mechanism is released by triggering the movable iron core lowered by the magnetic force of the excitation current, and the restraint of the trip actuator and the earth leakage display button is released (claim 4).

(4) The method according to (3), wherein the latch mechanism comprises a latch claw for locking the trip actuator to the reset position, and a return spring for applying a force to press the latch claw toward the locking jaw formed on the trip actuator. The inclined cam portion formed in the latch claw is disposed so as to be opposed to the periphery of the flange portion formed at the tip of the movable iron core of the trip coil (claim 5).

According to the above configuration, the earth leakage trip coils arranged in the longitudinal axis direction are aligned with the component arrangement direction, and a pop-up type earth leakage display button is mounted on the upper side, and a shanghai-type trip actuator is attached to the lower side, thereby uniting the unit. Miniaturization and compactness of the trip device can be achieved.

Further, according to the configuration of claim 4, a short circuit is caused by interlocking between the movable core of the trip coil and the trip actuator by the latch mechanism, and by locking the trip actuator whose force is accumulated by the trip spring at the reset position by the latch mechanism. The load force shared by the trip coil (self-holding electromagnet) is reduced. Therefore, the permanent magnet of the trip coil may only have a magnetic holding force that sucks the movable core to the standby position slightly, and the magnetic force required for the potato coil also cancels the magnetic force of the permanent magnet to secure the magnetic force to release the latch mechanism. Just do it. Thereby, miniaturization and compactness of the whole earth leakage trip device including a trip coil can be aimed at.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described based on the Example shown in FIGS. In addition, the same code | symbol is used for the member corresponding to FIG. 9 in the figure which concerns on Example.

(Example 1)

The configuration and operation of the embodiment according to claims 1 to 3 of the present invention will be described based on Figs. 1 (a) to (c) and Figs. 2 (a) and (b).

The earth leakage trip device of the illustrated embodiment has a conventional structure shown in FIG. 9 in the unit structure in which the earth leakage trip coil 8 is a key component, and the trip actuator 9 and the popup type earth leakage display button 10 are combined. Although basically the same as the structure, for the purpose of miniaturization and compactness of the whole apparatus, the mutual arrangement of each part is arrange | positioned as described below.

First, the earth leakage trip coil 8 includes a permanent magnet 8b, a potato coil 8c wound around a bobbin, and a movable iron core inside a magnetic yoke 8a composed of an inverted U-shaped leg piece and a bottom piece. 8e) and the fixed iron core 8h are arranged, and the self-holding electromagnet is arranged, and the permanent magnet 8b is arranged in the longitudinal axis so that the permanent magnet 8b is parallel to the lower side of the potato coil 8c with respect to the movable iron core 8e. It is mounted. In addition, the movable iron core 8e is a cylindrical shaft which couples the plunger shafts 8f and 8g, which are non-magnetic materials, to the upper and lower ends thereof to form a plunger. On the other hand, 8j is a return spring (compression coil spring) arranged on the shaft of the plunger shaft 8g, and presses the plunger downward with a weak spring force.

Further, with respect to the trip coil 8, on the upper side thereof, a pop-up type earth leakage display button 10 is disposed in combination with a driving spring 10a (compression coil spring), and a cap-shaped earth leakage display button 10 is disposed above the trip coil 8. It is connected to the upper end of the plunger shaft 8f by engaging.

On the other hand, the trip actuator 9 (resin-molded product) consists of an operation part 9a disposed on the lower side of the trip coil 8 and a guide shaft 9b extending upward from the operation part 9a. The guide shaft 9b is guided and supported in the assembly base 12 along the lateral direction of the trip coil 8 so as to be movable. Further, a trip spring 13 (compression coil spring) is mounted between the flange portion 9b-1 provided at the middle of the guide shaft 9b and the bottom piece of the magnetic yoke 8a, so that the trip actuator 9 is placed on the upper side. Spring is pressurized. Further, in the illustrated assembly state, the tip of the plunger shaft 8g is strongly pressed on the upper surface of the operating portion 9a, and the hook portion formed at the lower end of the operating portion 9a at this position is replaced by the trip crossbar 14. .

In addition, the reset lever 15 is attached to the operation unit 9a of the trip actuator 9, and the reset lever 15 is mounted in a state in which the earth leakage trip device is mounted on the main body case 11 (see FIG. 8) of the circuit breaker. In conjunction with the operation handle 6 of the breaker (refer to FIG. 8), when the breaker is reset, the trip actuator 9 is pushed downward against the trip spring 13 through the reset lever 15 by the handle operation. I'm trying to.

As described above, the earth leakage trip coil 8 is disposed vertically, and a pop-up type earth leakage display button 10 is provided on the upper side thereof, and a Shanghai trip type actuator 9 is combined on the lower side to integrally unit the earth leakage trip device. The entire structure can be made smaller and more compact than the conventional apparatus shown in FIG.

Next, operation | movement of the earth leakage trip device 7 which consists of said structure is demonstrated. First, in the reset state shown in FIG. 1, the trip actuator 9 is pushed down to the standby position, whereby the movable iron core 8e is fixed by the magnetic force of the permanent magnet 8b of the trip coil 8 at this position. The suction actuator is held at 8h, and the trip actuator 9 and the ground fault display button 10 are held in the standby position. In this state, the trip spring 13 is compressed and a force is accumulated.

On the other hand, the ground fault current flowing through the main circuit 1 (see Fig. 7) in the actual use state of the earth leakage breaker is detected by the image current transformer 3 and the earth leakage detection circuit 4, and the output signal of the earth leakage detection circuit 4 is detected. On the basis of this, when an excitation current flows to the potato coil 8c of the trip coil 8 of the earth leakage trip device 7, the generated magnetic field of the potato coil 8c removes the magnetic force of the permanent magnet 8b.磁) As a result, the self-holding force which has previously sucked and held the movable iron core 8e to the fixed iron core 8h is lost. As shown in FIGS. 2A and 2B, the trip actuator 9 is the trip spring 13 Under the released spring force, the upper hook portion of the operating portion 9a hits the trip crossbar 14 to trip the opening and closing mechanism of the breaker, thereby opening the main circuit contact 2 (see Fig. 7). . At the same time, the earth leakage display button 10 pops up by pressing the driving spring 10a to protrude from the cover (see Fig. 8) of the circuit breaker main body case 11 to display the earth leakage trip operation. In addition, if the steering wheel 6 (refer to FIG. 8) is reset after the tripping operation of the earth leakage breaker, the trip actuator 9 will be lowered to the position of FIG. 1 and the movable iron core 8e of the trip coil 8 will be permanent. It is attracted to the magnet 8b. Accordingly, the trip actuator 9 and the ground fault display button 10 are held in the standby position of FIG.

(Example 2)

Next, an improved embodiment corresponding to claims 4 and 5 of the present invention, which further develops the configuration of the first embodiment, will be described with reference to Figs.

In this embodiment, the arrangement of the earth leakage trip coil 8, the trip actuator 9, and the earth leakage display button 10 is the same as in the above-described embodiment 1, but the trip coil 8 and the trip coil 8 The linkage structure with the trip actuator 9 is different.

That is, the trip coil 8 which combined the permanent magnet 8b, the potato coil 8c, the movable iron core 8e, and the fixed iron core 8h with the magnetic yoke 8a is a permanent magnet 8b and a potato coil. In contrast to the first embodiment (see Fig. 1) in the position of 8c, the permanent magnet 8b is disposed above the potato coil 8c and mounted on the assembly base 12. As shown in FIG. In addition, a loose plunger shaft 8i is loosely fitted to the cylindrical movable iron core 8e to form a trip coil plunger. Then, the upper end side of the plunger shaft 8i is engaged with the cap-shaped short circuit indicator button 10 pressed by the driving spring 10a, and the lower end of the plunger shaft 8i is connected with a trip actuator ( After inserting into the operating part 9a of 9, it connects through the flange part 8i-1 formed in the front-end | tip of a plunger shaft. In addition, the guide shaft 9b extending upward from the operating portion 9a of the trip actuator 9 is inserted into the magnetic yoke 8a along the rear side of the trip coil 8 so as to slide upward and downward. It is guided and supported.

In addition, in this embodiment, the latch mechanism 16 is additionally equipped, and the latch mechanism 16 is interlocked between the movable iron core 8e of the trip coil 8 and the trip actuator 9. The latch mechanism 16 serves to hold and hold the trip actuator 9 pressurized by the trip spring 13 in the reset state of the ground fault trip device in a standby position. ) And (b), it is composed of a pivoting latch claw 16a and a return spring 16b (plate spring), and the latch claw 16a is assembled to the assembly base 12 through the hinge 16c. Pivotally supported). Incidentally, the latch claw 16a is provided with an inclined cam portion 16a-1, and is formed at the lower end of the movable iron core 8e of the trip coil 8 on the cam surface of the inclined cam portion 16a-1 in the assembled state shown. The periphery of the flange portion 8e-1 is to be replaced. In addition, the engaging jaw portion 9a-1 is formed at the upper end portion of the operation portion 9a of the trip actuator 9 opposite to the latch claw 16a.

Next, the operation of the ground fault trip device having the above configuration will be described. First, in the reset state of the trip actuator 9 shown in Figs. 3 and 4, the movable iron core 8e of the trip coil 8 is attracted and held in the raised position by the magnetic force of the permanent magnet 8b. In addition, in the trip actuator 9 (the trip actuator is pushed downward), the latch claw 16a of the latch mechanism 16 receives the force of the return spring 16b and the operation portion of the trip actuator 9 The engaging actuator 9a-1 of 9a is engaged (locking engagement margin δ), and the trip actuator 9 is held in the reset position. In addition, the earth leakage display button 10 is held in the standby position via the plunger shaft 8i of the trip coil 8 engaged with the operation portion 9a of the trip actuator 9.

In the above state, when the breaker detects a short circuit and sends an excitation current to the potato coil 8c of the trip coil 8, the magnetic force of the permanent magnet 8b is removed, and then the movable iron core 8e is further moved downward. Aspiration. Then, when the movable iron core 8e moves downward, as shown in FIGS. 6A and 6B, the flange portion 8e-1 formed at the lower end of the movable iron core 8e causes the latch mechanism 16 to move. The latch claw 16a is pushed outward in contact with the inclined cam surface of the inclined cam portion 16a-1 of the latch claw 16a. Accordingly, the latch claw 16a is rotated in the clockwise direction with the hinge 16c as a supporting point and is separated from the engaging jaw portion 9a-1 formed on the operation portion 9a of the trip actuator 9, thereby restraining the trip actuator. Release As a result, the trip actuator 9 rises under the spring force of the trip spring 13, and hits the trip crossbar 14 to trip the opening and closing mechanism of the breaker as shown in Figs. Open the main circuit contacts. Further, as the trip actuator 9 moves up, the restraint of the ground fault display button 10 by the plunger shaft 8i of the trip coil 8 is released. As a result, the earth leakage display button 10 pops up under the force of the driving spring 10a, and the earth leakage display button 10 protrudes from the cover of the circuit breaker body case 11 shown in FIG. do.

Further, when the handle is reset after the tripping operation of the ground fault breaker, the trip actuator 9 is pushed out to the position shown in FIG. 3, and the latch claw 16a of the latch mechanism 16 is engaged with the trip actuator 9. Engaged in the jaw portion 9a-1, the trip actuator 9 and the ground fault indication button 10 are restrained in the standby position.

As can be seen from the above description of the operation, according to this embodiment, the accumulated spring force of the trip spring 13 acting on the trip actuator 9 in the reset state is received by the latch mechanism 16, so that the spring Force is not applied to the trip coil 8 as a load force. In addition, the permanent magnet 8b of the trip coil 8 only needs to have a magnetic force for sucking and holding the movable iron core 8e at the raised position, and a small permanent magnet can be adopted. The magnetic force of the demagnetizing coil 8c is also removed by removing the magnetic force of the permanent magnet 8b, sucking the movable iron core 8e downward, and releasing the latch claw 16a of the latch mechanism 16. Secure it. Accordingly, the earth leakage trip coil 8 can be made smaller in size than the trip coil of the first embodiment described above, and the earth leakage trip device including the trip coil 8 can be configured more compactly and compactly.

1 is a configuration diagram of an earth leakage trip device according to a first embodiment of the present invention, where (a) is an external view in a reset state, and (b) and (c) are end side views of (a), respectively. And longitudinal back view.

FIG. 2 is a diagram illustrating a ground fault operation state of the ground fault trip device illustrated in FIG. 1, (a) is an external perspective view, and (b) is a longitudinal side view.

3 is a configuration diagram of a ground fault trip device according to a second embodiment of the present invention, (a) is an external view in a reset state, and (b) is a longitudinal side view of (a).

4 is a structural explanatory diagram of the latch mechanism in FIG. 3, (a) is a side view of the earth leakage trip device, and (b) is an enlarged cross sectional view of the latch mechanism portion in (a).

FIG. 5 is a diagram illustrating a ground fault operation state of the ground fault trip device corresponding to FIG. 3, wherein (a) is an external view and (b) is a longitudinal side view of (a).

6 is an explanatory view of the operation of the latch mechanism corresponding to FIG. 5, (a) is a side view of the earth leakage trip device, and (b) is an enlarged cross sectional view of the latch mechanism portion in (a).

7 is a circuit diagram of an earth leakage breaker that is the subject of the present invention.

8 is an external perspective view of an earth leakage breaker corresponding to FIG. 7.

FIG. 9 is an external perspective view illustrating a configuration of a conventional earth leakage trip device mounted on the earth leakage breaker of FIG. 8.

Explanation of symbols on the main parts of the drawings

7: earth leakage trip device 8: earth leakage trip coil

8a: magnetic yoke 8b: permanent magnet

8c: potato coil 8e: movable iron core

8e-1: Flange 8f, 8g, 8i: Plunger shaft

9: trip actuator 9a: control panel

9a-1: engaging jaw 9b: guide shaft

10: earth leakage display button 10a: drive spring

11 main body case of the breaker 12 assembling base of the earth leakage trip device

13: trip spring 14: trip crossbar

15: reset lever 16: latch mechanism

16a: latch claw 16a-1: inclined cam portion

16b: return spring

Claims (5)

A ground fault trip coil, a trip actuator connected to the plunger of the ground fault trip coil, and a pop-up type ground fault indicator button, are mounted on the circuit breaker main body to activate the main circuit contact when the ground fault is detected, and to display the ground fault trip operation. As an earth leakage trip device of an earth leakage breaker, The earth leakage trip coil is a self-maintaining electromagnet provided with a permanent magnet and a potato coil in a magnetic yoke, and the earth leakage indication button is connected to the upper side through a plunger of the earth leakage trip coil after arranging the electromagnet in a vertical axis. And a shank-type trip actuator pressurized upward by a lower side of the trip coil to be linked to the plunger. The method of claim 1, A ground fault tripping device for a ground fault circuit breaker, comprising: a guide shaft, which is a vertical axis, is attached to a trip actuator, and a trip spring is mounted on an axis of the guide shaft, and then guided and supported along the side of the ground fault trip coil. The method according to claim 1 or 2, The plunger of the ground fault trip coil is composed of a movable core and a plunger shaft coupled to the movable core, and also connects a ground fault indication button to the upper end of the plunger shaft, and simultaneously presses the lower end of the plunger shaft firmly to the trip actuator, In the reset state of the trip actuator, the permanent magnet of the trip coil sucks the moving core in the lowered position, restrains the actuator and the earth leakage indication button in the standby position, and in the event of a short circuit, the magnetic force of the permanent magnet is caused by the excitation current flowing to the potato coil. The circuit breaker of the earth leakage breaker, characterized in that to release the restraint of the trip actuator and the earth leakage display button by removing. The method according to claim 1 or 2, The plunger of the earth leakage trip coil is composed of a cylindrical movable iron core and a plunger shaft loosely fitted to the iron core, and a spring pressurized earth leakage indicating button is connected to the upper end of the plunger shaft, and the lower end of the plunger shaft is engaged with the trip actuator. At the same time, interlock between the movable core and the trip actuator through a latch mechanism that moves in accordance with the movement of the movable core, In the reset state of the trip actuator, the permanent magnet of the trip coil maintains the movable core in the ascending position, and then, through the latch mechanism, the trip actuator and the ground fault indication button are held in the retracted position, and when a short circuit occurs, the permanent magnet of the trip coil is discharged to the potato coil. A ground fault tripping device for a ground fault circuit breaker, characterized in that the movable iron core descending under the magnetic force of an excitation current releases the latch mechanism to release the restraint of the trip actuator and the ground fault indication button. The method of claim 4, wherein The latch mechanism includes a latch claw for locking the trip actuator to the reset position, and a return spring for applying a force to press the latch claw toward the locking jaw formed on the trip actuator, and the inclined cam portion formed in the latch claw. An earth leakage trip device of an earth leakage circuit breaker, wherein the earth leakage circuit breaker is disposed opposite to the periphery of the flange portion formed at the tip of the movable iron core of the trip coil.

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