JP2020181691A - Circuit breaker - Google Patents

Abstract

To provide a circuit breaker capable of reducing the occurrence of wiring defects even when a zero-phase current transformer is housed at the inside thereof.SOLUTION: A circuit breaker includes a trip mechanism that cuts off the electric circuit between a pair of external terminals, and a housing including the trip mechanism. The housing is configured by combining at least a first housing part 21 and a second housing part 22. A plurality of ribs 212, 213 extending from the first housing part 21 contact the second housing part 22, the plurality of ribs 212, 213 being arranged such that distances from the center side of the housing are different from each other.SELECTED DRAWING: Figure 5

Description

The present disclosure relates to circuit breakers.

A circuit breaker having a built-in trip mechanism that cuts off an electric circuit connecting a pair of external terminals is known. The circuit breaker described in Patent Document 1 below includes a zero-phase current transformer. The zero-phase current transformer bundles three-phase alternating current and detects the current all at once. When the three-phase circuit is sound, if the current is detected in a batch of three phases, the currents of each phase cancel each other out, and the zero-phase current transformer does not detect the current. When an electric leakage occurs, the balance of the current flowing through each phase is lost, and the zero-phase current transformer detects the current. When a current is detected, the trip mechanism connected to the secondary side of the zero-phase current transformer operates, shutting off the electric circuit.

Japanese Unexamined Patent Publication No. 2003-132775

In a conventional circuit breaker, if a zero-phase current transformer is housed inside a divided housing, a certain number of wiring defects occur in the actual manufacturing process, and the yield may be poor.

An object of the present disclosure is to provide a circuit breaker capable of reducing the occurrence of wiring defects even if a zero-phase current transformer is housed therein.

The present disclosure is a circuit breaker, comprising a tripping mechanism that cuts off an electric circuit between a pair of external terminals and a housing that includes the tripping mechanism, and the housing includes at least a first housing portion and a second housing. A plurality of ribs extending from the first housing portion abut on the second housing portion, which are configured by combining the portions, and the plurality of ribs are arranged so that the distances from the center side of the housing are different from each other. ing.

By differentiating the placement positions of the plurality of ribs with respect to the center side of the housing, the ribs placed relatively close to the center side of the housing can secure a space between the ribs and the outer wall of the housing. Ribs located relatively far from the center side of the housing can secure space on the center side of the housing. Therefore, it is possible to secure a space on both the outer wall side and the center side of the housing, and it is possible to increase the degree of freedom in the arrangement of the functional parts inside the housing and the arrangement of the members for attaching the circuit breaker to the base.

In the circuit breaker of the present disclosure, the first housing portion is provided with a base mounting hole for mounting the circuit breaker on the base, and the plurality of ribs are the inner ribs which are relatively close to the center side of the housing. It is also preferable that the base mounting hole is provided between the inner rib and the outer wall of the housing, including the outer rib which is relatively far from the center side of the housing.

Since the base may be shared with other types of circuit breakers, the position of the base mounting holes may not be movable. Therefore, in this preferred embodiment, by arranging the base mounting hole between the inner rib and the outer wall of the housing, the position of the base mounting hole can be prevented from being restricted by the inner rib. Since the outer rib is provided at a position different from the base mounting hole, it can be brought close to the outer wall without being restricted by the base mounting hole, and the space inside the housing can be secured.

In the circuit breaker of the present disclosure, the inner rib and the outer rib are provided on the load side and the power supply side, respectively, and it is also preferable that the inner rib and the outer rib are arranged so as to be point-symmetrical on the load side and the power supply side.

The mounting positions of the inner rib and the outer rib are shifted when focusing only on the load side or the power supply side, but since they are arranged so as to be point-symmetrical between the load side and the power supply side, the balance between the two ribs is not balanced. It offsets and improves the balance of holding the housing as a whole.

According to the present disclosure, it is possible to provide a circuit breaker capable of reducing the occurrence of wiring defects even if a zero-phase current transformer is housed therein.

FIG. 1 is a cross-sectional view of the circuit breaker according to the present embodiment. FIG. 2 is a diagram for explaining the zero-phase current transformer in FIG. FIG. 3 is a diagram for explaining the first housing portion in FIG. FIG. 4 is a diagram for explaining a state inside the housing in FIG. FIG. 5 is a diagram for explaining a state inside the housing in FIG.

Hereinafter, the present embodiment will be described with reference to the accompanying drawings. In order to facilitate understanding of the description, the same components are designated by the same reference numerals as much as possible in each drawing, and duplicate description is omitted.

The configuration of the circuit breaker 10 according to the present embodiment will be described with reference to FIG. FIG. 1 is a cross-sectional view of a main part of the circuit breaker 10 according to the present embodiment.

The circuit breaker 10 includes a housing 20, a power supply side terminal 30, a load side terminal 40, a movable contactor 50, a separator 60, a handle 70, and an electromagnetic mechanism unit 90. In FIG. 1, the x-axis is along the direction penetrating the paper surface, the y-axis is along the direction from the power supply-side terminal 30 to the load-side terminal 40, and the z-axis is in the direction orthogonal to the x-axis and the y-axis. It is set. The x-axis, y-axis, and z-axis will be similarly set and described in FIGS.

The housing 20 includes a first housing portion 21, a second housing portion 22, and a third housing portion 23. Functional parts are mainly attached to the first housing portion 21 and the second housing portion 22 and function as a base. The third housing portion 23 functions as a cover.

By assembling the first housing portion 21, the second housing portion 22, and the third housing portion 23, a housing 20 having an internal space is formed. A power supply side terminal 30, a load side terminal 40, a movable contactor 50, a separator 60, a handle 70, a wiring 81, and an electromagnetic mechanism unit 90 are assembled to each assembly position in the second housing portion 22. The third housing portion 23 is assembled to the second housing portion 22 and protects various parts provided in the second housing portion 22 from the external environment.

The housing 20 includes a first wall portion 201, a second wall portion 202, a third wall portion 203, a fourth wall portion 204, a fifth wall portion (not specified in FIG. 1), and a sixth wall portion. (Not specified in FIG. 1) and. The first wall portion 201 and the second wall portion 202 are arranged so as to face each other. The third wall portion 203 and the fourth wall portion 204 are arranged so as to face each other. The fifth wall portion and the sixth wall portion are provided so as to connect the first wall portion 201 and the second wall portion 202, and also connect the third wall portion 203 and the fourth wall portion 204, and face each other. It is arranged like this.

When the circuit breaker 10 is attached to a mounting portion such as a base plate of a distribution board, the first wall portion 201 is arranged on the power supply side of the electric circuit, and the second wall portion 202 is arranged on the load side of the electric circuit. The four wall portions 204 are arranged on the base plate side. The third wall portion 203 and the fourth wall portion 204 are provided so as to connect the first wall portion 201 and the second wall portion 202.

The power supply side terminal 30 is a terminal fitting to which the power supply side wiring (not shown) of the electric circuit is connected. The load-side terminal 40 is a terminal fitting to which the load-side wiring (not shown) of the electric circuit is connected. The power supply side terminal 30 and the load side terminal 40 are provided so as to be exposed on the power supply side and the load side of the housing 20, respectively.

The power supply side terminal 30 includes a power supply side terminal seat 31, a fixed contact 32, a screw 34, and a metal fitting 35. The power supply side terminal seat 31 constitutes a seat portion connected to the power supply side wiring. The power supply side wiring is arranged between the metal fitting 35 and the power supply side terminal seat 31, and is attached to the power supply side terminal 30 by a screw 34.

The fixed contact 32 constitutes a fixed contact portion that serves as a contact point with the movable contact 50. The connection portion 33 is a portion that connects the power supply side terminal seat 31 and the fixed contactor 32. The fixed contact 32 is attached to the attachment portion 221 of the second housing portion 22. The power supply side terminal seat 31, the fixed contact 32, and the connecting portion 33 are integrally formed of, for example, a conductive plate-shaped metal member.

The power supply side terminal 30 is arranged so as to face the inside of the housing 20 from the first wall portion 201 of the housing 20. The fixed contact 32 is provided with a fixed contact 321.

The load-side terminal 40 includes a load-side terminal seat 41, a screw 42, and a metal fitting 43. The load-side terminal 40 is arranged so as to face the inside of the housing 20 from the second wall portion 202 of the housing 20. The load-side terminal seat 41 is provided at one end of the load-side terminal 40 so as to be exposed to the outside in the second wall portion 202. The load-side wiring is arranged between the metal fitting 43 and the load-side terminal seat 41, and is attached to the load-side terminal 40 by a screw 42.

The movable contact 50 has a movable contact 51 and a protruding portion 52. The movable contact 50 is arranged inside the circuit breaker 10 in a state of being held by a separator 60 described later. The movable contact 51 is provided so as to face the fixed contact 321. The protrusion 52 is provided so that the movable contact 50 faces the mounting portion 221 from the surface facing the mounting portion 221.

The separator 60 has a tip portion 61, a shaft portion 62, an inner wall portion 63, and a contact pressure spring 64. The separator 60 is assembled inside the circuit breaker 10. The tip portion 61 is formed so as to come into contact with the pressing member 71 described later. The shaft portion 62 is provided at one end of the separator 60 so that the separator 60 is supported by the housing 20. The separator 60 can rotate about the rotation axis m, which is the central axis of the shaft portion 62. The inner wall portion 63 is formed so as to come into contact with the movable contactor 50.

The contact pressure spring 64 is arranged between the mounting portion 211 and the movable contact 50. The contact pressure spring 64 is fitted to the protrusion 52. The contact pressure spring 64 is kept in a compressed state. The contact pressure spring 64 presses the movable contact 50 against the inner wall portion 63, so that the movable contact 50 is held by the separator 60.

The handle 70 is provided so as to project from the third wall portion 203 of the housing 20. The pressing member 71 is arranged so as to abut the tip portion 61. As the handle 70 moves, a link mechanism (not shown) provided inside the housing 20 drives the pressing member 71. The pressing member 71 drives the movable contact 50 by moving while pressing the separator 60. When the pressing member 71 transitions from a non-conducting state in which the electric path is cut off to a conductive state in which the electric path is connected, the pressing member 71 is in a locked state in which movement is restricted by the link mechanism inside the housing 20.

The wiring 81 is provided inside the housing 20. The wiring 81 connects the end of the movable contact 50 and the mechanism-side connecting portion 912 of the electromagnetic coil 91, which will be described later. A cylindrical zero-phase current transformer 82 is provided inside the housing 20. The wiring 81 is arranged so as to pass through the inside of the zero-phase current transformer 82.

The electromagnetic mechanism unit 90 includes an electromagnetic coil 91, a movable magnetic piece 92, an oil dashpot 93, a joint iron 94, a spring 95, and an engagement piece 96. The electromagnetic mechanism unit 90 is housed inside the housing 20.

The electromagnetic coil 91 has a winding portion 911, a mechanism side connection portion 912, and a terminal side connection portion 913.

The mechanism-side connection portion 912 is provided on one end side of the winding portion 911. The mechanism-side connecting portion 912 has a first portion 9121 extending in the outer peripheral tangential direction of the winding portion 911. The mechanism-side connecting portion 912 is connected to the first portion 9121 and has a second portion 9122 along the winding center of the winding portion 911. The mechanism-side connection portion 912 is formed so as to face the fourth wall portion 204 side from the winding portion 911.

The terminal side connection portion 913 is provided on the other end side of the winding portion 911. The terminal-side connection portion 913 has a third portion 9131 extending in the outer peripheral tangential direction of the winding portion 911. The mechanism-side connecting portion 912 is connected to the third portion 9131 and has a fourth portion 9132 along the winding center of the winding portion 911. The terminal-side connection portion 913 is formed so as to go from the winding portion 911 to the third wall portion 203.

The electromagnetic coil 91 is connected to the wiring 81 in the second portion 9122. The electromagnetic coil 91 is connected to the load side terminal 40 at the fourth portion 9132.

The movable magnetic piece 92 has one side 920 and the other side 921. The movable magnetic piece 92 is held inside the housing 20 by a joint iron 94 described later. One side 920 is arranged between the electromagnetic coil 91 and the third wall portion 203. One side 920 and the other side 921 are mechanically connected by a corner portion 922. The other side 921 extends from the corner portion 922 toward the first housing portion 21 along the first wall portion 201.

The oil dashpot 93 has an end face 930. The oil dashpot 93 is inserted into the electromagnetic coil 91 along the inner surface formed by the electromagnetic coil 91. The oil dashpot 93 is fixed to the housing 20 by a joint iron 94 described later. Inside the oil dashpot, oil and an iron core that can move inside the oil dashpot 93 are housed. The end face 930 faces one side 920.

One end of the joint iron 94 is attached to the inner wall surface of the third wall portion 203 of the housing 20. The joint iron 94 extends from this mounting position to the inside of the housing 20 along the oil dashpot 93. The joint iron 94 supports the movable magnetic piece 92 in a state in which it can rotate around the corner portion 922. The other end of the joint iron 94 is bent toward the load side terminal seat 41. The joint iron 94 holds the oil dashpot 93 at the other end.

The spring 95 is arranged between the other side 921 and the third wall portion 203. The spring 95 applies an elastic force to the other side 921 so that one side 920 is separated from the end face 930. The spring 95 holds the other side 921 at a position away from the engagement piece 96.

The engagement piece 96 is arranged between the movable magnetic piece 92 and the pressing member 71. The engagement piece 96 can be displaced by being pushed by the other side 921. When the engagement piece 96 is displaced, the locked state can be released when the pressing member 71 is in the locked state. When the locked state is released, the movable contact 50 moves. The movement of the movable contact 50 cuts off the electric circuit connecting the power supply side terminal 30 and the load side terminal 40.

In the present embodiment, the movable contact 50, the separator 60, the link mechanism (not shown), the pressing member 71, and the electromagnetic mechanism unit 90 constitute a tripping mechanism.

Subsequently, the wiring state around the zero-phase current transformer 82 will be described with reference to FIG. As shown in FIG. 2, the movable contact 50a and the load side terminal 40a are connected by a wiring 81a. The movable contact 50b and the load side terminal 40b are connected by a wiring 81b. The movable contact 50c and the load side terminal 40c are connected by a wiring 81c.

Wiring 81a, 81b, 81c is a flexible electric wire and is arranged through a ring-shaped zero-phase current transformer 82. The electromagnetic coil 91a is arranged so as to come into contact with the load side terminal 40a, and the oil dashpot 93a is arranged inside the electromagnetic coil 91a. The electromagnetic coil 91b is arranged so as to come into contact with the load side terminal 40b, and the oil dashpot 93b is arranged inside the electromagnetic coil 91b. The electromagnetic coil 91c is arranged so as to come into contact with the load side terminal 40c, and the oil dashpot 93c is arranged inside the electromagnetic coil 91c.

The zero-phase current transformer 82 interferes with the electromagnetic coil 91b when it is attempted to be arranged near the center as shown in FIG. The zero-phase current transformer 82 is arranged between the electromagnetic coil 91b and the electromagnetic coil 91a or between the electromagnetic coil 91b and the electromagnetic coil 91c in order to avoid interference with the electromagnetic coil 91b. Even in such an arrangement, since the zero-phase current transformer 82 is arranged in an extremely narrow space, an excessive force is applied to the wirings 81a, 81b, 81c, and the load side terminals 40a, 40b. , 40c and the electrical connection state with the movable contacts 50a, 50b, 50c may be impaired.

Therefore, in the present embodiment, a device is devised to secure a space for accommodating the zero-phase current transformer 82. As shown in FIG. 3, the first housing portion 21 is provided with an outer rib 212 and an inner rib 213 for connecting and fixing to the second housing portion 22. The first housing portion 21 is provided with a base mounting hole 214 for mounting the circuit breaker 10 on the base.

The outer rib 212 and the inner rib 213 are provided on both the first wall portion 201 side and the second wall portion 202 side. The base mounting holes 214 are also provided on both the first wall portion 201 side and the second wall portion 202 side.

Since the base mounting hole 214 is a hole for mounting the circuit breaker 10 on the base, it is necessary to align the position with the mounting hole provided on the base. Therefore, the arrangement position of the base mounting hole 214 in the circuit breaker 10 is fixed.

In this embodiment, the inner rib 213 is provided inside the base mounting hole 214. The outer rib 212 is provided at a position closer to the first wall portion 201 or the second wall portion 202 than the inner rib 213. The outer rib 212 on the load side is arranged so that the distance from the second wall portion 202 is about the same as the base mounting hole 214. Therefore, the outer rib 212 is displaced toward the second wall portion 202 when viewed from the center side of the circuit breaker 10, so that a space ZZ for accommodating the zero-phase current transformer 82 is secured.

As shown in FIGS. 4 and 5, the outer rib 212 is provided so as to correspond to the outer mounting hole 222 of the second housing portion 22 when the first housing portion 21 and the second housing portion 22 are combined. Has been done.

The inner rib 213 is provided so as to correspond to the inner mounting hole 223 of the second housing portion 22 when the first housing portion 21 and the second housing portion 22 are combined. The base mounting hole 214 is provided so as to correspond to the base mounting hole 224 of the second housing portion 22 when the first housing portion 21 and the second housing portion 22 are combined.

The circuit breaker 10 in the present embodiment includes an electromagnetic mechanism unit 90, which is a trip mechanism that cuts off an electric circuit between a pair of external terminals, a power supply side terminal 30 and a load side terminal 40, and an electromagnetic mechanism unit 90. The housing 20 is configured by combining at least the first housing portion 21 and the second housing portion 22. The outer rib 212 and the inner rib 213 as a plurality of ribs extending from the first housing portion 21 abut on the second housing portion 22, and the outer rib 212 and the inner rib 213 are from the center side of the housing 20. They are arranged so that the distances are different from each other.

By making the arrangement positions of the outer rib 212 and the inner rib 213 different from each other with respect to the center side of the housing 20, the inner rib 213 arranged relatively close to the center side of the housing 20 is between the outer wall of the housing 20 and the outer rib 213. Space can be secured in the housing 20, and the outer rib 212 arranged relatively far from the center side of the housing 20 can secure a space in the center side of the housing 20. Therefore, it is possible to secure space on both the outer wall side and the center side of the housing 20, and it is possible to increase the degree of freedom in arranging the functional parts inside the housing 20 and the members for mounting the circuit breaker 10 on the base. it can.

In the circuit breaker 10 of the present embodiment, the first housing portion 21 is provided with a base mounting hole 214 for mounting the circuit breaker 10 on the base. The plurality of ribs include an inner rib 213 which is relatively close to the center side of the housing 20 and an outer rib 212 which is relatively far from the center side of the housing 20, and the base mounting hole 214 includes the inner rib 213. It is provided between the housing 20 and the outer wall of the housing 20.

Since the base may be shared with other types of circuit breakers, the position of the base mounting hole 214 may not be movable. Therefore, by arranging the base mounting hole 214 between the inner rib 213 and the outer wall of the housing 20, the position of the base mounting hole 214 can be prevented from being restricted by the inner rib 213. Since the outer rib 212 is provided at a position different from that of the base mounting hole 214, the outer rib 212 can be brought close to the outer wall without being restricted by the base mounting hole 214, and the space inside the housing 20 can be secured.

In the circuit breaker 10 of the present embodiment, the inner rib 213 and the outer rib 212 are provided on the load side and the power supply side, respectively, and are arranged so as to be point-symmetrical on the load side and the power supply side.

The mounting positions of the inner rib 213 and the outer rib 212 are shifted when focusing only on the load side or the power supply side, but since they are arranged so as to be point-symmetrical between the load side and the power supply side, the balance between the two is balanced. The balance of holding the housing 20 as a whole is improved by offsetting the deviation.

The present embodiment has been described above with reference to specific examples. However, the present disclosure is not limited to these specific examples. Those skilled in the art with appropriate design changes to these specific examples are also included in the scope of the present disclosure as long as they have the features of the present disclosure. Each element included in each of the above-mentioned specific examples, its arrangement, conditions, shape, etc. is not limited to the illustrated one, and can be appropriately changed. The combinations of the elements included in each of the above-mentioned specific examples can be appropriately changed as long as there is no technical contradiction.

10: Circuit breaker 20: Housing 21: First housing part 22: Second housing part 90: Electromagnetic mechanism part 212: Outer rib 213: Inner rib

Claims (3)

It ’s a circuit breaker,
A trip mechanism that cuts off the electric circuit between the pair of external terminals,
A housing containing the tripping mechanism and
The housing is composed of at least a combination of a first housing portion and a second housing portion.
A plurality of ribs extending from the first housing portion abut on the second housing portion.
The plurality of ribs are arranged so that the distances from the center side of the housing are different from each other. The circuit breaker according to claim 1.
The first housing portion is provided with a base mounting hole for mounting the circuit breaker on the base.
The plurality of ribs include an inner rib that is relatively close to the center side of the housing and an outer rib that is relatively far from the center side of the housing.
The base mounting hole is provided between the inner rib and the outer wall of the housing. The circuit breaker according to claim 2.
The inner rib and the outer rib are provided on the load side and the power supply side, respectively, and are arranged so as to be point-symmetrical between the load side and the power supply side.

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