JPH08264097A - Remotely-controlled circuit breaker - Google Patents

Abstract

PURPOSE: To facilitate the work of laying a circuit lead wire and control lead wire. CONSTITUTION: This remotely-controlled circuit breaker is assembled by coupling two circuit breaker blocks A1 , A2 with an earth leakage breaker block B. Notches 15 are formed in the frames 1, 1' of the blocks A1 , A2 , B. Oblong guide holes 16 are formed in the lower side faces of the frames 1 of the circuit breaker blocks A1 , A2 . Projections 18 are provided at the edges of openings in the upper portions of the notches 15. A circuit lead wire 6 laid from the circuit breaker blocks A1 , A2 to the earth leakage breaker block B is stored in the notches 15 formed in the frames 1, 1' of the blocks A1 , A2 , B, and are locked by the projections 18. Further, the upper openings of the notches 15 are closed by a lid panel 24. A control lead wire 7 laid between the circuit breaker blocks A1 , A2 is guided out of the guide holes 16, so wiring work can be facilitated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention opens a contact portion when an abnormal current flows in a closed state of the contact portion inserted in a main electric path, and opens the contact portion in response to a control signal from the outside. The present invention relates to a remote control breaker that can be opened and closed.

[0002]

2. Description of the Related Art Generally, this type of remote control breaker
As shown in FIG. 20, a power supply side connection terminal 112 is provided at one end,
A load side connection terminal 113 is provided at the other end and a contact part inserted into the main electric circuit, a contact opening / closing unit for opening the contact part when an abnormal current flows in the main electric circuit, and a control signal from the outside. Circuit breaker block 1 with a remote control opening / closing unit that opens and closes the contacts
10 ₁ and a leakage breaker block 120 having a built-in leakage breaker unit are connected to each other, and the handle 1 protrudes from the body 111 of the circuit breaker block 110 _2.
The contact portion can be manually opened / closed by the operation of 14.

[0003]

By the way, in the above-mentioned conventional example, when connecting the electric circuit lead wire 115 derived from each circuit breaker block 110 ₁ to the earth leakage breaker block 120, the circuit breaker block 110 ₁ ... Leakage breaker block 1 through recess 116 provided on the bottom surface of the body of
The electric circuit lead wire 115 was laid up to 20.

On the other hand, a control signal from the outside is input to _one circuit breaker block 110 ₁ ... And branched from there to another circuit breaker block 110 ₁ . The control lead wire 117 for inputting a control signal to 110 ₁ ...
It was routed through the bottom surface recessed portion 116 of the container 111 containing the.

That is, the electric circuit lead wire 115 and the control lead wire 117 are the body 1 of the circuit breaker block 110 ₁ .
It was derived from the bottom of No. 11 together. Therefore, each circuit breaker block 110 ₁ ... And the earth leakage breaker block 1
When assembling the remote control breaker by coupling 20 together, there is a problem that the wiring work of the electric circuit lead wire 115 and the control lead wire 117 is very difficult to perform, and the assembly is troublesome.

An object of the present invention is to solve the above problems, and an object of the present invention is to provide a remote control breaker which facilitates the wiring work of electric circuit lead wires and control lead wires.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, a first aspect of the present invention is to provide a contact portion configured to separate and contact a contact inserted in a main electric path, and a closed state of the contact portion. A contact opening / closing unit that holds the contact and opens the contact when an abnormal current flows in the main circuit during closing, and a remote control opening and closing unit that opens the contact in response to a control signal from the outside when the contact is closed. The circuit breaker block that is installed inside the body, the leakage detection unit that detects the leakage current or the ground fault current flowing in the circuit breaker block, and the leakage detection unit detects the leakage current or the ground fault current. And an earth leakage breaker block which is installed inside the body to actuate the contact opening / closing unit of the circuit breaker block to open the contact portion. hand A remote control breaker assembled by connecting a plurality of circuit breaker blocks in parallel with each other, and a circuit lead for electrically connecting a main circuit of each circuit breaker block and a leakage detection unit of the circuit breaker block. The line and the control lead wire for sending the control signal input to one circuit breaker block to another circuit breaker block are derived from different parts of the body of the circuit breaker block.

According to a second aspect of the present invention, in the first aspect of the present invention, a notch groove having an accommodation space for accommodating the electric circuit lead wire is provided in each body of the circuit breaker block and the earth leakage breaker block. A lid body that detachably closes the open end of the notch groove while forming a protrusion for locking the electric circuit lead wire housed in the housing space inside the notch groove on the body near the open end of To do.

The invention of claim 3 is characterized in that, in the invention of claim 2, the width dimension near the opening end side of the notch groove is made larger than at least the width dimension on the inner side of the body. The invention of claim 4 is characterized in that, in the invention of claim 2, an engagement groove with which a plate-like lid is slidably engaged is provided in the container near the opening end of the notch groove. A fifth aspect of the present invention is characterized in that, in the first to fourth aspects of the present invention, locking projections for individually locking the plurality of electric circuit lead wires in the storage space are provided on the inner wall of the cutout groove.

According to a sixth aspect of the present invention, in the fifth aspect of the invention, a tapered surface inclined from the inner wall of the notch groove toward the inside of the body is formed on the opening end side of the locking projection, and the inside of the body is formed. It is characterized in that the surface side is formed with a surface that is not inclined toward the opening end from the inner wall. According to a seventh aspect of the present invention, in the first to sixth aspects, the circuit board forming at least a part of the leakage detection unit is installed inside the body of the leakage breaker block and electrically connected to the leakage detection unit. A rib for locking and fixing the electric circuit lead wires from the plurality of circuit breaker blocks to be separated from the circuit board is provided inside the body.

[0011]

In order to achieve the above object, in the structure of the invention of claim 1, a contact portion configured to separate and contact the contact inserted in the main electric path, and the contact portion is maintained closed and closed. A contact opening / closing unit that opens the contact when abnormal current flows in the main circuit at the time of a pole, and a remote control opening / closing unit that opens the contact in response to a control signal from the outside when the contact is closed A circuit breaker block installed inside, a leakage detection unit that detects a leakage current or a ground fault current flowing in the circuit breaker block, and a circuit interruption when the leakage detection unit detects a leakage current or a ground fault current. And a plurality of circuits for one earth leakage circuit breaker block, which includes an earth leakage circuit breaker block that is installed inside the body to actuate the contact opening / closing unit of the electricity leakage block to open the contact portion. Occlusion Vessels block a remote breaker assembled the respective device body bind to parallel,
Circuit line lead wire for electrically connecting the main circuit of each circuit breaker block and the leakage detection unit of the circuit breaker block, and control for sending the control signal input to one circuit breaker block to another circuit breaker block Since the lead wire and the lead wire are derived from different parts of the body of the circuit breaker block, the electric circuit lead wire and the control lead wire can be separately wired, which facilitates the wiring work of each lead wire.

According to the second aspect of the present invention, each of the circuit breaker block and the earth leakage breaker block is provided with a notch groove having a storage space for accommodating the electric circuit lead wire, and the notch groove is provided near the opening end. Since the body is provided with a lid that forms a projection for locking the electric circuit lead wire stored in the storage space inside the cutout groove and detachably closes the open end of the cutout groove,
The wiring of the electric circuit lead wire is easy and the electric circuit lead wire is stored in the storage space of the cutout groove, and the open end of the cutout groove is closed by the lid so that the electric circuit lead wire does not project from the body. The appearance is better, and even if the electric circuit lead wires bend due to the electromagnetic repulsive force that acts between the electric circuit lead wires when current flows, the electric circuit lead wires are locked by the locking protrusions. It is possible to prevent the cable from coming off and the electric circuit lead wire from protruding from the notch groove.

In the structure of the third aspect of the present invention, the width dimension near the opening end side of the notch groove is made larger than at least the width dimension inside the body, so that the electric path is caused by the electromagnetic repulsive force acting between the electric wire lead wires. Even if the lead wire bends, there is a margin near the open end of the notch groove with a large width.Therefore, the bent portion of the electric circuit lead wire pushes up the lid body, and the electric circuit lead wire projects outside the body. It is possible to prevent it.

According to the fourth aspect of the present invention, since the plate-like lid body is provided with the engaging groove for slidably engaging the vessel body in the vicinity of the opening end of the notch groove, the lid body is firmly fixed to the vessel body. It can be fixed, and the lid can be prevented from coming off due to the bending of the electric circuit lead wire. In the configuration of the invention of claim 5, since the locking projections for individually locking the plurality of electric circuit lead wires in the storage space are provided on the inner wall of the cutout groove, it is possible to keep a distance between the plurality of electric circuit lead wires. As a result, it is possible to easily dissipate the heat generated in the electric circuit lead wire due to the current flow.

In the structure of the sixth aspect of the present invention, the tapered surface inclined from the inner side wall of the notch groove toward the inside of the body is formed on the opening end side of the locking projection, and the inside surface is inside the body. Since the surface that does not incline toward the opening end from the wall is formed, insert it because the electric wire lead wire is guided by the tapered surface of the locking projection when pushing the electric wire lead wire into the storage space from the open end of the notch groove. Since the surface that does not incline toward the opening end from the inner wall is formed on the bottom surface side of the locking projection when the electric path lead wire is locked to the locking projection, It is possible to prevent the movement of the electric circuit lead wire from protruding from the cutout groove due to the restricted movement.

According to the structure of the invention of claim 7, the circuit board forming at least a part of the earth leakage detecting portion is installed inside the body of the earth leakage breaker block, and a plurality of circuits electrically connected to the earth leakage detecting portion. Since the rib that locks and fixes the electric circuit lead wire from the circuit breaker block away from the circuit board is provided inside the body, the electric circuit lead wire is prevented from bending toward the circuit board side and is radiated from the electric circuit lead wire. It is possible to suppress the influence of noise on the circuit board.

[0017]

【Example】

(Embodiment 1) A first embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows an exploded perspective view of a remote control breaker of the present embodiment, in which a power source side connection terminal 20a and a control signal terminal 20c to which a control signal from the outside is input are provided at one end of a body 1, and a load side is provided at the other end. A _first circuit breaker block A ₁ having a connection terminal 20b, and a second circuit breaker block A ₂ having a power supply side connection terminal 20a at one end of the body 1 and a load side connection terminal 20b at the other end. And an earth leakage circuit breaker block B having an earth leakage display button 96 and a test switch button 97 projecting forward and backward on the upper surface of the body 1, and an interlocking plate 9 described later is interposed between the blocks A ₁ , A ₂ and B. And the electric circuit lead wire 6 and the control lead wire 7 which are respectively connected between the first and second circuit breaker blocks A ₁ and A ₂ and the earth leakage breaker block B. Swing and from the top and bottom of each body 1, respectively. Only one in which it was to be derived.

FIGS. 2 and 3 are exploded perspective views of the _first circuit breaker block A ₁ , showing a body 1a made of an insulating material such as synthetic resin and a cover 1b butted together. A power supply side connection terminal 20a and a load side connection terminal 20b are provided at each end. The first movable contactor 3 having the first contact 31a on the power supply side connection terminal 20a
1 is electrically connected via a connecting wire 33 made of a braided wire, and a bimetal 61 of a contact opening / closing unit 2 described later is electrically connected to the load side connecting terminal 20b. The first contact 31a is the second contact 32a provided at the tip of the second movable contact 32 that is swung by the contact opening / closing unit 2.
Together with the contact portion 30, the second movable contact 32 opens and closes the second contact 32a with respect to the first contact 31a according to the operation of the contact opening / closing unit 2.

The second movable contact 32 is provided with a coil 51 of an electromagnetic releasing device 50, which will be described later, via a connecting wire 37 made of a braided wire.
The coil 51 is electrically connected to the bimetal 61 via a connecting wire 38 made of a braided wire. Therefore, when the contact portion 30 is closed, the power supply side connection terminal 20a-
A main electric path through which a current flows is formed by a path of the contact portion 30-coil 51-bimetal 61-load side connection terminal 20b. Here, as the bimetal 61, either a direct heating type that bends by self-heating or an indirectly heating type that bends when heated by a heater in which plate heaters are stacked may be used.

The body 1 is composed of a body 1a and a cover 1b. Assembly holes 12 ... Are pierced through the body 1a and the cover 1b at four locations on the peripheral portion, and rivets are respectively inserted into the assembly holes 12 ... As a result, the body 1a and the cover 1b can be joined together. A handle insertion hole 13 that is opened in a rectangular shape when the body 1a and the cover 1b are butted is formed on the upper surface of the body 1, and the operation portion 41a that protrudes to the upper surface of the body 1 through the handle insertion hole 13 is formed.
The operation handle 41 having the
It is rotatably supported by a handle shaft 64 protruding from a. That is, the operation handle 41 is rotatable within a range in which the operation portion 41 a can move in the handle insertion hole 13. An arc-shaped cover piece 41b centering on the handle shaft 64 is formed at the base of the operation portion 41a of the operation handle 41, and the operation handle 41 is slidably brought into contact with the operation handle 41 by the cover piece 41b slidingly contacting the inner surface of the body 1. The cover piece 41b shields the inside of the body 1 from being visible even when the cover piece 41b rotates, and the cover piece 41b has a contact portion 30 associated with the operation of the operation handle 41.
The characters that indicate the opening and closing of are written. A link support portion 41c is provided on the lower surface of the cover piece 41b so as to project from the link support portion 41c.
A shaft hole 41d is formed in this. Here, the operation unit 4
The projecting directions of the 1a and the link supporting portion 41c relative to the covering piece 41b are set so that they are not in a straight line and have a substantially V-shaped cross section. Further, the operation handle 41 is urged clockwise in FIG. 4 by a handle return spring 43 composed of a scissor spring.

The contact opening / closing unit 2 includes an opening / closing mechanism 40 for opening / closing the contact 30. The opening / closing mechanism portion 40 is formed by arranging the leg pieces in parallel with each other so as to have a substantially U-shaped cross section, and an operation handle 41 by means of a shaft pin 42 inserted into one of the bearing holes 45a formed at the end portions of the leg pieces.
A handle link 45 pivotally supported by a shaft hole 41d provided on the base plate and a locking plate 46a at both ends of a flat plate-shaped locking plate 46a.
A pair of guide pieces 46b extending substantially orthogonal to a and extending in the direction along the edge of the locking plate 46a is provided, and the handle shaft 64 of the fixing metal piece 63a is provided in the shaft hole 46c formed at the tip of the guide piece 46b. Latch plate 46 to be inserted and fixing metal piece 6
3a, a shaft pin 47 that rotatably supports the trip plate 44, and a shaft hole 48b that is formed in a substantially U shape and is provided at the tip of both leg pieces 48a.
And a contact link 48 through which a link shaft 49 is inserted through a bearing hole 45b formed at the other end of each leg of the handle link 45. An engaging portion 32b provided at the tip of the second movable contact 32 is engaged with the shaft pin 34 inserted through an insertion hole 48c formed at the rear ends of the two leg pieces 48a of the contact link 48. It

The second movable contactor 32 has a main piece 32c having a second contact 32a at one end, and a direction substantially perpendicular to the main piece 32c from both ends of the main piece 32c and along the edge of the main piece 32c. A pair of extended side pieces 32d is provided, a substantially C-shaped locking portion 32b is formed at the upper ends of the side pieces 32d, and a bearing hole 32e is formed in the center of the side pieces 32d. , 63b are inserted into the bearing holes 32e, so that the second movable contactor 32 is rotatably supported around the shaft pin 35. Further, one end of a contact pressure spring 36 formed of a coil spring is locked to the main piece 32c of the second movable contactor 32, and the other end is fixed to an upper portion of a yoke piece 65 (described later) of the electromagnetic release device 50. ing. Further, a protruding stopper 39 is provided at a position near the second contact 32a of the body 1a, and the second movable contact 32 is biased in the direction opposite to the stopper 39 by the spring force of the contact pressure spring 36. There is.

The trip plate 44 has a first pressing piece 44b projecting from the upper end of the base piece 44a to one side and a base piece 4a.
The second pressing piece 44c extends downward from 4a,
Further, arm pieces 44d and 44d 'are formed so as to project from both side edges of the base piece 44a in the upper and lower intermediate portions in a direction substantially orthogonal to the base piece 44a. The arm pin 44d 'is inserted with the shaft pin 47 protruding from the fixing metal piece 63a, and the trip plate 44 is rotatable around the shaft pin 47. In addition, a hook groove 44e is formed on the upper edge of the tip of the arm piece 44d.
Are formed. A return spring 62, which is a scissor-shaped spring, is attached to the shaft pin 47, and both ends of the return spring 62 are locked to the fixing metal piece 63a and the base piece 44a of the tripping plate 44, respectively. 44 is urged counterclockwise in FIG.

The latch plate 46 is rotatable with respect to the fixed fitting pieces 63a and 63b together with the operation handle 41 by the handle shaft 64, but is inserted into the leg pieces 48a of the handle link 45 and the contact link 48. The operation handle 41 is supported by being supported by the link shaft 49.
The swing range of the latch plate 46 with respect to is restricted. Further, the lower edge of the locking piece 46a of the latch plate 46 is provided at the trip plate 4
4 is engageable with the hooking groove 44e provided on the No. 4 and the movement of the latch plate 46 is prohibited in the engaged state.

As described above, the operation handle 41, the fixing metal pieces 63a and 63b, the handle shaft 64, the handle return spring 43, the trip plate 44, the handle link 45, and the latch plate 4 are provided.
The opening / closing mechanism section 40 constituted by 6, the shaft pin 47, and the contact link 48 serves as the contact opening / closing unit 2 and the contact section 3.
When the short circuit current flows in the main circuit in the closed state of 0, the electromagnetic release device 50 operates, and when the excessive current flows, the bimetal 61 operates to open the contact 30.

The electromagnetic release device 50 is constructed by assembling a yoke piece 63c integrally formed of a magnetic material in a substantially U-shape in the lower portion of the fixing metal piece 63a and a yoke piece 65 formed of a magnetic material in an approximately L shape. Coil 5 in the inner space of the yoke
It is composed of 1's. The coil 51 is wound around the outer circumference of a cylindrical coil tube 53 made of an insulating material, and a pair of cutouts 53a is formed at one end portion of the coil tube 53 in the axial direction. A tapered portion is formed at the other end portion of which the inner and outer diameters are smaller than the intermediate portion in the axial direction.

A movable iron core 54 having a portion having a diameter larger than the inner diameter of the tapered portion is installed in the inner space of the coil cylinder 53 so as to be movable in the axial direction of the coil cylinder 53, and the coil cylinder 53 is also movable. A fixed iron core 55 that faces the movable iron core 54 is attached to the coil cylinder 53 at a portion of the cutout 53 a side that faces the movable iron core 54. A hooking pin 54a is integrally provided on one end surface in the moving direction of the movable iron core 54 so as to project from the end surface of the coil cylinder 53 on the tapered portion side, and the other end surface is provided with a fixed iron core 55 through which the notch 53a of the coil cylinder 53 is provided. The pressing pin 57 protruding from the end face is fixed. Hook pin 5
A hooking head 54b having a larger diameter than other parts is formed at the tip of 4a. A return spring 5 composed of a coil spring is provided between the movable iron core 54 and the fixed iron core 55.
6 is interposed, and the movable iron core 54 is biased to the tapered side of the coil cylinder 53 by the spring force of the return spring 56.

As described above, the coil tube 53 is attached to the movable iron core 54,
The core member formed by mounting the fixed iron core 55 and the return spring 56 is attached to the yoke including the yoke pieces 63c and 65. Here, the fixed iron core 55 is magnetically coupled to the yoke pieces 63c and 65. In the electromagnetic release device 50 having the above configuration, when the coil 51 is energized, the fixed iron core 55 is moved relative to the movable iron core 54 so as to reduce the magnetic resistance of the magnetic path passing through the fixed iron core 55-yoke 52-movable iron core 54.
Since an attraction force acts between the coil and the coil 51, if the passing current to the coil 51 is an excessive current as when the load is short-circuited,
The movable iron core 54 moves so as to approach the fixed iron core 55 against the spring force of the return spring 56. Here, the tip of the pressing pin 57 fixed to the movable iron core 54 is positioned so as to face the second pressing piece 44c of the trip plate 44, and when the movable iron core 54 is attracted to the fixed iron core 55 and moves. The trip plate 44 is rotated clockwise around the shaft pin 47.

On the other hand, an adjusting screw 61a, which is inserted in the bending direction of the bimetal 61, is screwed onto the upper end portion of the bimetal 61 whose one end is fixed to the yoke piece 63c. Adjustment screw 6
1a is opposed to the first pressing piece 44b of the trip plate 44, and when the bimetal 61 is bent by an excessive current passing through the main energization path, the trip plate 44 is provided at the tip of the adjusting screw 61a.
By pressing, the trip plate 44 is rotated clockwise around the shaft pin 47.

An adjusting window 61b is opened in the vicinity of the adjusting screw 61a screwed to the bimetal 61 on the peripheral wall of the body 1. Here, since the degree of bending (operation sensitivity) of the bimetal 61 with respect to the passing current changes depending on the variation of the material of the bimetal 61, the connection position of the connecting wire 38, and the like, the operation sensitivity of the opening / closing mechanism section 40 (that is, the opening / closing mechanism section). In order to prevent the passage current of the main electric circuit when 40 operates) from varying, the amount of protrusion of the adjusting screw 61a screwed to the bimetal 61 from the bimetal 61 to the trip plate 44 side is adjusted. Will be needed. Therefore, after the assembly, the adjustment window 61b is opened and the adjustment screw 61a is opened.
To operate. On the other hand, after adjusting the adjusting screw 61a once, it is not necessary to operate the adjusting screw 61a, so that the closing plate 61c closes the adjusting window 61b to inadvertently operate the adjusting screw 61a or the foreign body 1 Be careful not to invade inside.

The power supply side connection terminal 20a and the load side connection terminal 20b are respectively composed of flat terminal plates 21a and 21b and terminal screws 22 and 22, and a projecting piece 21c is provided on the terminal plate 21a of the power supply side connection terminal 20a. One end of the electric circuit lead wire 6 made of a braided wire is connected to the protruding piece 21c by welding or brazing. In addition, the load side connection terminal 20
The terminal plate 21b of b has a projecting connecting piece 21d, and is connected to the bimetal 61 by this connecting piece 21d.

On the other hand, the contact portion 3 is brought into contact with and separated from the second contact 32a.
The first contact 31a forming 0 is provided at the tip of the first movable contact 31 formed in the shape of a rectangular plate, and the first movable contact 31 has a substantially L-shaped driving body 66. It is swingably attached at the center of the lower end of the. First
A pressing piece 31b is provided on the upper end of the movable contact 31,
Since the contact pressure spring 67, which is a coil spring, is interposed between the pressing piece 31 b and the inner surface of the leg piece 66 a of the driving body 66, the first movable contact 31 is moved relative to the driving body 66 as shown in FIG. Is urged clockwise.

A shaft 66b protruding leftward and rightward is formed at a bent portion of the driving body 66 formed in a substantially L shape, and the driving body 66 is provided by bearings provided on the body 1a and the cover 1b.
The driving body 66 is swingably attached to the body 1 by supporting the. A plunger 71 of a bistable polar electromagnet 70, which will be described later, is attached to the tip of the arm piece 66c of the driving body 66.
A connecting member 72 that is connected to the first movable contactor 31 is pivotally supported, and the drive body 66 swings through the connecting member 72 in accordance with the vertical movement of the plunger 71, thereby swinging the first movable contactor 31. By moving the first contact 31a, the first contact 31a is brought into contact with or separated from the second contact 32a.

Further, the contact portion 30 due to the swing of the driving body 66
The operation display section 68 for displaying the open / closed state of the driver 6
6 is attached so as to swing integrally. The operation display unit 68 includes a display plate 68 curved in an arc shape.
A leg portion 68b having an insertion hole 68c is formed from the lower surface side of a, and a shaft 66d protruding from the side surface of the leg piece 66a of the driving body 66 is inserted into the insertion hole 68c. It swings together with the driving body 66. The display window 1 is provided on the upper surface of the body 1 so that the characters (for example, "ON", "OFF", etc.) for displaying the operation written on the surface of the display plate 68a can be seen from the outside.
4 are formed.

The bistable polar electromagnet 70 includes an exciting coil 7
3, a pair of large yokes 74, a pair of small yokes 75, a permanent magnet 76, and a plunger 71 having an armature 77, and the plunger 71 operates two types of magnetic circuits by the large yoke 74 and the small yoke 75. After being formed, it is stably held at each position shown in FIGS. 4 and 5 by the attractive force of the permanent magnet 76. Reference numeral 78 is a leaf spring for absorbing the vibration of the bistable polar electromagnet 70. The plunger 71 and the driving body 66 are connected by the connecting member 72 as described above.

As shown in FIGS. 6A and 6B, the drive circuit for controlling the bistable polar electromagnet 70 includes an inversion changeover switch SW ₁ which is inserted in series with the exciting coil 73 into the control terminal 20c, and It is composed of a pair of diodes D ₁ and D ₂ connected in inverse parallel to the inverting switch SW ₁ and mounted on a circuit board 79 which is housed below the bistable polar electromagnet 70 inside the body 1. It is what is done. The inversion changeover switch SW ₁ is composed of the micro switch 80 as shown in FIG. 2, and is switched by driving the contact spring 80a of the micro switch 80 by the plunger 71.

The control terminal 20c is also mounted on the circuit board 79, and an external changeover switch SW ₂ connected to the outside via the control terminal 20c and a pair of diodes D connected in antiparallel. ₃ , D ₄ and AC power supply A
C is connected in series, and the direction of the exciting current flowing to the exciting coil 73 is changed by operating the external changeover switch SW ₂ , whereby the plunger 7 of the bistable polar electromagnet 70 is changed.
1 is switched to two stable positions to open and close the contact portion 30. In the present embodiment, the bistable polar electromagnet 70 and the driving body 66 constitute a remote control opening / closing unit. As shown in FIG. 6, another circuit breaker block A adjacent to the exciting coil 73 by the control lead wire 7 is provided.
The exciting coil 73 of the bistable polar electromagnet 70 included in ₂ is connected in parallel, and the remote control switching unit can be operated simultaneously for the two circuit breaker blocks A ₁ and A ₂ .

Explaining the above operation in a little more detail, in the state of FIG. 6A, the exciting coil 73
An exciting current flows through the diode D _{1 in} the direction of the arrow. This exciting current causes the plunger 71 to move, for example, as shown in FIG.
When operated in the state of, the driving body 66 swings in conjunction with the plunger 71 and the first contact point 31a is separated from the second contact point 32a, and at the same time, the reversing changeover switch SW ₁ is moved by the lower end portion of the plunger 71 in the same figure (b). Can be switched as follows. Next, when the contact portion 30 is closed, the external changeover switch SW ₂ is operated to flow an exciting current in the opposite direction to the exciting coil 73 through the diode D ₂ so that the plunger 71 is closed.
The swinging of the driving body 66 causes the first contact 31a to move to the second
The contact 32a is brought into contact. In this way, the contact portion 30 can be opened and closed by an operation from the outside.

A substantially L-shaped arc traveling plate 58 is provided so as to face the first movable contactor 31, and the first contact 3 is provided near the tip of the arc extinguishing piece 58a of the arc traveling plate 58.
An arc extinguishing grid 59 for extinguishing an arc generated when the contacts 1a and the second contact 32a are opened is arranged. In addition,
Reference numeral 60 denotes a guide plate for guiding the electric wire lead wire 6,
Reference numeral 9 is an insulating plate that separates the fittings of the distribution board from the power source side connection terminal portion 20a.

On the other hand, the second circuit breaker block A ₂ is
As shown in FIGS. 7 to 9, a circuit board for driving the bistable polar electromagnet 70 and a control terminal are not provided, and one end of the body 1 provided with the control terminal has a flat plate-like blockage. The plate 81 is attached. The rest of the configuration is the same as that of the first circuit breaker block A ₁ and will not be described.

Next, the earth leakage circuit breaker block B is placed inside the body 1'assembled by combining the synthetic resin body 1e and the cover 1f, from the body 1 of the circuit breaker blocks A ₁ and A _2. Based on the leakage current detected by the zero-phase current transformer CT, in which the derived electrical circuit lead wires 6 are introduced and these electrical circuit lead wires 6 are inserted into the through holes of the toroidal core, The circuit breaker blocks A ₁ and A ₂ are equipped with an earth leakage breaker unit 3 for opening the contact portions 30 of the contacts.

As shown in FIG. 10, the earth leakage breaker unit 3 converts the linear movement of the tripping electromagnet 91 and the plunger 90 for driving the plunger 90 into a rotary movement, and this rotary movement causes the adjacent circuit breaker block A ₁ , A drive lever 92 and an interlocking lever 93 for tripping the A ₂ opening / closing mechanism 40, and the drive lever 92 and the interlocking lever 93.
It is composed of fixing metal pieces 94a and 94b on which a shaft pin 95 rotatably supported is projectingly provided, an earth leakage display button 96, a test switch button 97, a printed circuit board 98 and the like.

The trip electromagnet 91 is an exciting coil 91a.
And a U-shaped yoke 91b that sandwiches the exciting coil 91a between both side pieces, and is housed and fixed inside the body 1e. The yoke 9 is provided in the central through hole 91c of the exciting coil 91a.
A plunger 90 made of a magnetic material is inserted in a retractable manner through a hole formed in one side piece 1b. A flange 90a is formed at the lower end of the plunger 90,
The flange 90a is locked in a notch formed in a flat plate-shaped side piece 92a protruding from the side surface of the drive lever 92. The drive lever 92 is formed in a substantially V shape, and the bearing holes 92b formed in the central portion of the drive lever 92 have fixing metal pieces 94a and 9a.
The shaft pin 99 fixed to 4b is inserted, and the drive lever 9
2 is rotatable around the shaft pin 99. Also,
A protrusion 92c is provided on the side opposite to the side piece 92a of the drive lever 92 so as to project therefrom. One end of the protrusion 100 is provided on the side surface of the body 1e. By locking the other end of 101, the drive lever 92 is elastically biased clockwise in FIG. 11.

The other end of the drive lever 92 has a fixing metal piece 94.
The drive lever 92 is engaged with the tip end of the interlocking lever 93 that is rotatably supported by the shaft pin 95 protruding from the a.
The interlocking lever 93 is pushed and driven to rotate in the opposite direction according to the rotation of the. This interlocking lever 93
A rectangular opening 93a is formed at the other end of
A projecting piece 9a projecting from the side surface of the interlocking plate 9 is inserted into the opening 93a, and the interlocking plate 9 projects along the peripheral edge of the opening 93a as the interlocking lever 93 rotates.
a is engaged, and the interlocking plate 9 is moved according to the rotation of the interlocking lever 93.
Oscillates to operate the switching mechanism section 40 of the adjacent circuit breaker blocks A ₁ and A ₂ .

The leakage display portion 96 is formed by providing a cylindrical button portion 96b at the upper end of a rod-shaped main body 96a, an engaging claw 96c at the lower end, and a protruding claw 96d at the central portion. It is attached so as to project forward and backward from a display hole 102 formed on the upper surface of the body 1 '. The engaging claw 96c is a claw portion 92 formed at the tip of the drive lever 92.
engage with d. Further, one end of a return spring 87 composed of a scissors-like spring is locked to the projection claw 96d, and by this return spring 87, the earth leakage display portion 96 is elastically biased in a direction in which the button portion 96b is projected to the outside of the body 1 '. Has been done.

On the printed circuit board 98, a circuit for amplifying the detection output of the leakage current by the zero-phase current transformer CT and outputting a signal for exciting the tripping electromagnet 91, and creating a pseudo leakage current state to perform a test operation. A switch 103 including a micro switch for carrying out is mounted, and a test switch button 9 for pushing and driving the switch 103.
7 is provided with a part thereof protruding from the body 1 '. The test switch button 97 is used for the coil spring 10
4 is elastically biased in the protruding direction.

Next, the essential parts of this embodiment will be described. In this embodiment, in order to accommodate the electric circuit lead wire 6 inserted into the through hole of the toroidal coil of the zero-phase current transformer CT of the earth leakage breaker block B, the circuit breaker block A ₁ ,
A notch groove 15 is formed in the body 1 of A ₂ , the electric circuit lead wire 6 is housed in the internal space of the notch 15, and the circuit board 7 is inserted from the lower part of the body 1 of the circuit breaker blocks A ₁ and A _2.
A lead-out hole 16 for leading out the control lead wire 7 whose one end is connected to 9 is formed, and the lead wire 6 and the control lead wire 7 are distributed to the upper part and the lower part of the body 1 and led out. .

The cutout groove 15 is formed from the upper portion of the body A of each of the blocks A ₁ and A ₂ on the power supply side connection terminal portion 20a side toward the inside of the body 1. That is, each block A ₁ ,
The body 1a of the A ₂ partition wall 17b for isolating the partition wall 17a and the power source side connection terminal portions 20a to isolate the bistable polarized electromagnet 70 along the notched groove 15 is formed, the first circuit breaker block A ₁ In the case, the notch groove 15 is also formed in the cover 1b.
Is formed.

Here, regarding the width dimension of the storage space 17 formed by the pair of partition walls 17a and 17b facing each other inside the notch groove 15, the width dimension near the upper opening end is at least the width dimension on the inner side of the body 1. And a projection 18 for locking the electric circuit lead wire 6 housed in the housing space 17 inside the cutout groove 15 in the vicinity of the upper opening end of the cutout groove 15 so as to project inward. There is.

Further, at the bottom of the storage space 17 inside the cutout groove 15, the protruding piece 2 of the terminal plate 21a of the power supply side connection terminal 20a is provided.
1c is advanced and one end of the electric path lead wire 6 inserted through the through hole of the toroidal core of the zero-phase current transformer CT is joined to the protruding piece 21c by welding or brazing, and the electric path lead wire 6 The other end of is joined to the arc traveling plate 58 and the first movable contactor 31. Further, on the upper surface of the body 1 above the projection 18, a step portion 19 is formed on which a plate-like lid plate 24 for closing the upper opening of the cutout groove 15 is placed after the remote control breaker is assembled. With the plate 24 attached to the body 1, the surface of the lid plate 24 and the upper surface of the body 1 are substantially flush with each other.

On the other hand, in the earth leakage breaker block B,
A notch groove 15 is formed in the cover 1f that abuts the body 1a of the first circuit breaker block A ₁ , and a rectangular notch 25 that is continuous with the upper end of the notch groove 15 is formed on the upper surface of the body 1e. is there. A step portion 26 on which the cover plate 24 is placed is formed on the peripheral edge of the rectangular cutout 25.
Further, a peripheral wall 27 is formed along the periphery of the rectangular cutout 25 so as to project toward the inside of the body 1e, and further, at a portion where the peripheral wall 27 and the rectangular cutout 25 are connected to each other, the peripheral wall 27 projects inward and the electric circuit lead wire is formed. A protrusion 28 for locking 6 is formed.

A zero-phase current transformer CT is housed in the bottom of the body 1'opposing the rectangular cutout 25, and a path extending from the rectangular cutout 25 to the zero-phase current transformer CT is disposed. A conical rib 29 for locking the electric circuit lead wire 6 is provided on the way from the body 1e. That is, the printed circuit board 98 on which a circuit unit for detecting leakage is mounted.
Are housed with both ends fitted in grooves 23 formed on the inner surface of the upper portion and the inner surface of the lower portion of the body 1e. As shown in FIG. When the wire 6 is flexed freely, the distance between the electric circuit lead wire 6 and the printed circuit board 98 becomes short, so that the circuit portion mounted on the printed circuit board 98 is electrically connected to the electric circuit lead wire 6.
Since a malfunction may occur due to the influence of noise from the electric circuit lead wire 6, by locking the electric path lead wire 6 to the rib 29, the distance between the electric path lead wire 6 and the printed circuit board 98 is maintained and the electric path lead wire 6 is held. It is possible to prevent the flexure from approaching the printed circuit board 98. Circuit breaker block A described above
_1, A and when assembling the earth leakage circuit breaker of this embodiment from ₂ leakage breaker block B, zero to two of the circuit breaker block A ₁ path leads 6 derived from, A ₂ is inserted The phase current transformer CT is housed and arranged inside the body 1e of the earth leakage circuit breaker block B, the cover 1f is abutted against the body 1e of the earth leakage circuit breaker block B, and the cover 1b of the _first circuit breaker block A ₁ and the second Circuit breaker block A
Butt the ₂ body 1c. At this time, the projecting piece 9a of the interlocking plate 9 was inserted into the body 1 through the opening 10a formed on the outer surface of the cover 1b of the circuit breaker block A ₁ and was provided near the opening 10a. Protrusion shaft 11
Is inserted into a bearing hole 9c formed in the interlocking plate 9, so that the interlocking plate 9 is rotatably supported around the protrusion shaft 11.
An opening is also formed on the outer surface of the body 1c of the other circuit breaker block A ₂ , and the protruding piece 9 of the interlocking plate 9 is formed.
a is inserted into the body 1. Further, a long lead-out hole 16 is formed in the lower portion of the cover 1b of the first circuit breaker block A ₁ , and a pair of control lead wires 7 are led out from the lead-out hole 16. The control lead wire 7 is introduced into the circuit breaker block A ₂ through an introduction hole formed in the lower portion of the body 1c of the other circuit breaker block A ₂ and connected to the bistable polarized electromagnet 70. The exciting coil 73 of the bistable polarized electromagnet 70 included in both circuit breaker blocks A ₁ and A ₂ is connected in parallel.

Similarly, the cover 1 of the earth leakage breaker block B
When the body 1a of the first circuit breaker block A ₁ is butted against f, the projecting piece 9 of the interlocking plate 9 comes out from the opening 10b formed on the outer surface of the cover 1f of the earth leakage breaker block B.
a and 9b are inserted into the body 1'and the opening 10
The interlocking plate 9 is rotatably supported around the projecting shaft 11 by inserting the projecting shaft 11 projecting near b in the bearing hole 9c formed in the interlocking plate 9. An opening is also formed on the outer surface of the body 1a of the first circuit breaker block A ₁ , and the projecting pieces 9a and 9b of the interlocking plate 9 are inserted into the body 1.

[0054] Then, in a state of abutting each block A _1, A _2, B of the device body 1, 1 ', the body 1a by inserting the rivet into the assembly hole 12, 1c, 1e, a cover 1b,
1d and 1f are bonded and fixed, respectively. After that, the electric circuit lead wires 6 protruding from the bodies 1, 1 ′ of the circuit breaker blocks A ₁ and A ₂ and the earth leakage breaker block B are connected to the cutout grooves of the circuit breaker blocks A ₁ and A ₂ , respectively. It is pushed into the storage space 17 inside 15 and is stored inside the body 1'through the rectangular cutout 25 of the earth leakage breaker block B and the cutout groove 15 formed in the cover 1f. This allows
As shown in FIG. 5, the electric circuit lead wires 6 are accommodated in a line in the accommodation space 17 inside the cutout groove 15. Finally, the upper opening of the cutout groove 15 of each block A ₁ , A ₂ , B and the opening of the rectangular cutout 25, the cover plate 24, and the step portion 19,
By mounting on 26 and closing, the remote control breaker in which the circuit breaker blocks A ₁ and A ₂ and the earth leakage breaker block B are integrated as shown in FIGS. 14 to 16 is completed. In addition, between the heads of the operation handles 41 of the circuit breaker blocks A ₁ and A ₂ , a handle cap 85 having a U-shaped cross section is fitted and connected by a connecting pin 86, which can be handled as one operation handle. ing.

According to the above configuration, each circuit breaker block
A₁, A₂The electric circuit lead wire 6 derived from the
Breaker block A₁, A₂Connect the remote control opening and closing unit of
Control lead wire 7 from the top and bottom of body 1 respectively
Since it is derived separately, the same location as in the past
Each block A compared to the case where it was derived from₁,
A ₂When assembling the remote control breaker by connecting B
Wiring work can be facilitated. Moreover, each block
A₁, A₂, B container 1, 1'provided with a notch groove 15
In the storage space 17 formed inside the notch groove 15 of the
Storage space for the wire 6 and the projection 18
The electric circuit lead wire 6 housed in 17 is locked.
From the electromagnetic repulsive force acting between the electric circuit lead wires 6
Even if the electric circuit lead wire 6 bends, it is locked by the protrusion 18.
Therefore, it is prevented from jumping out of the body 1 from the notch groove 15.
It In addition, the width of the storage space 17 is set to the bottom on the upper opening end side.
Since it is made larger than the part side, the above-mentioned electric circuit lead wire 6
Absorb the flexure of in a relatively large space of the upper width dimension,
Make the upper space act like a surge tank and
The electric wire lead wire 6 jumps out of the body 1 from the groove 15.
It can be prevented.

Finally, the operation of the remote control breaker of this embodiment will be described. FIG. 5 shows a state in which the remote control opening / closing unit is operated by an external control signal and the first contact 31a is separated from the second contact 32a, and the contact opening / closing unit 2 is in a set state in which it has not tripped. That is, the operating portion 41 a of the operating handle 41 is connected to the handle shaft 64.
It has been tilted to the left around and the trip plate 44
Is urged counterclockwise around the shaft pin 47 by the spring force of the return spring 62, and the second pressing piece 44c is kept in contact with the tip of the pressing pin 57 of the electromagnetic release device 50.
Further, the spring force of the contact pressure spring 36 acts on the latch plate 46 via the second movable contact 32 and the contact link 48, and the link shaft 49 of the contact link 48 and the shaft projection 41d provided on the operation handle 41. Since the distance between and is regulated by the handle link 45, the latch plate 46 receives the spring force of the contact pressure spring 36 and is biased clockwise around the handle shaft 64. However, the locking piece 46 of the latch plate 46
Since a is engaged with the locking groove 44e provided in the arm piece 44d of the trip plate 44, the clockwise rotation of the latch plate 46 is prohibited, and the state shown in the figure is maintained. When the operating portion 41a of the operating handle 41 is tilted rightward from this state, the left side of the shaft projection 41d is retained while the engagement piece 46a of the latch plate 46 remains engaged with the engagement groove 44e of the trip plate 44. The handlebar link 45 also moves upward in accordance with the movement in the direction, and the contactor link 48 accordingly moves to the right. As a result, the second movable contact 32 rotates clockwise around the shaft pin 35, so that the second contact 32a moves to the first position as shown in FIG.
The contact portion 30 is opened by being separated from the contact 31a. In the state shown in FIG. 4, the plunger 71 of the bistable polar electromagnet 70 is held in the downwardly lowered position, the first movable contact 31 is held in contact with the stopper 39, and the contact pressure is reduced. A contact pressure corresponding to the spring force of the spring 67 is applied.

From the state shown in FIG. 5, if the energization is overloaded through _one of the circuit breaker blocks A ₁ and A ₂ and an excessive current flows in the bimetal 61 and the bimetal 61 bends, the trip plate is released. The first pressing piece 21b of 44 is pressed by the adjusting screw 61a screwed to the bimetal 61, and an excessive current flows to the coil 51 of the electromagnetic release device 50 due to a short circuit on the load side or the like, so that the movable iron core 54 is fixed to the fixed iron. When sucked by the core 55, the second pressing piece 44c of the trip plate 44 is pressed by the pressing pin 57 fixed to the movable iron core 54,
In either case, the trip plate 44 is rotated clockwise around the shaft pin 47. As a result, the engagement between the engagement groove 44e of the trip plate 44 and the engagement piece 46a of the latch plate 46 is released, and the spring force of the handle return spring 43 causes the operation handle 41 to rotate rightward around the handle shaft 64. Then, the handle link 45 is pulled up and one end of the contactor link 48 is pulled up, and the entire body moves to the right to move the second movable contactor 32 to the axial pin 3
The contact portion 30 is opened by rotating in the right direction around 5. That is, when an excessive current flows in the main circuit, the trip plate 44 rotates and the engagement state with the latch plate 46 is released, and the force that biases the latch plate 46 is released. So-called trip operation,
The contact portion 30 is opened. Along with this trip operation, the interlocking plate 9 swings clockwise in the drawing as the protrusion 9c is pushed by the rotation of the locking plate 46a of the latch plate 46. Due to this clockwise rotation, the adjacent circuit breaker block A
_The protrusion 9b facing the ₂ side is the first pressing piece 44b of the trip plate 44 of the contact opening / closing unit 2 of the circuit breaker block A _2.
Is pressed to rotate the trip plate 44 clockwise in the drawing, that is, in the trip direction. Therefore, the circuit breaker block A ₂
Also operates tripping in conjunction with the above tripping operation
0 is opened (see FIG. 9).

After the trip operation of the two circuit breaker blocks A ₁ and A ₂ , the operation handle 41 has a handle return spring 43.
As a result, the contact opening / closing unit 2 is returned to the OFF state and the state of the contact opening / closing unit 2 is returned to the OFF state. When the leakage breaker block B is in the state shown in FIG. 11, if a leakage current flows in the main circuit of one of the circuit breaker blocks A ₁ and A ₂ , the zero-phase current change of the leakage breaker block B will occur. An unbalanced current flows through the container CT, a secondary output is generated, and the trip electromagnet 91 of the earth leakage breaker unit is excited according to the secondary output. This drives the plunger 90 upward, so that the side piece 92a is locked and fixed to the flange 90a of the plunger 90.
2 rotates counterclockwise, and as shown in FIG. 12, the engagement claw 96c of the electric leakage display portion 96 and the claw portion 92d of the drive lever 92 are disengaged, and the display button 96b of the electric leakage display portion 96 is operated. Body 1 '
Of the display window 102, and the display is switched to the leakage operation display.

On the other hand, the drive lever 92 rotates counterclockwise.
As a result, the interlocking lever 93 is rotated clockwise,
The interlocking plate 9 abutting on the peripheral edge of the rectangular hole 93a of the interlocking bar 93
Of the interlocking plate 9 by pushing the protruding piece 9a of
Circuit breaker block A in contact ₁First push of the trip plate 44 of
Push the pressure piece 44b in the tripping direction, and
As with the trip operation above,
The trip operation is performed to open the contact portion 30. This bird
Further, the operation of the circuit breaker block A₁, A ₂In between
Circuit breaker block through another interlocking plate 9 mounted
A₂The contact opening / closing unit 2 of the
Open 30.

When the test switch button 97 of the earth leakage breaker block B is pushed, the switch 103 mounted on the printed circuit board 98 is turned on and the pseudo zero-phase current transformer CT is turned on via the test lead wire 8. An unbalanced current can be made to flow to the primary side of the circuit breaker, and the same state as at the time of occurrence of leakage can be created to cause the contact opening / closing unit 2 of the circuit breaker blocks A ₁ and A ₂ to perform a trip operation.

(Embodiment 2) FIGS. 17 to 19 show a partially broken sectional view and a plan view of the circuit breaker blocks A ₁ and A ₂ and the earth leakage breaker block B in this embodiment, respectively. The basic configuration of this embodiment is the same as that of the first embodiment, the common portions are denoted by the same reference numerals, and the description thereof will be omitted. Only the characteristic features of this embodiment will be described.

In this embodiment, the circuit breaker blocks A ₁ , A
The partition walls 17a and 17b inside the _second cutout groove 15 are provided with locking projections 105 for individually locking the plurality of electric circuit lead wires 6, and the cover plate 24 is attached to the body 1 near the upper opening end of the cutout groove 15. The feature is that the engaging groove 106 that slidably engages is formed. Four locking protrusions 105 are provided in the storage space 17 inside the cutout groove 15 so as to project from the partition walls 17a and 17b at positions opposite to each other.
7b are formed in the storage spaces 17 ₁ formed between the paired locking projections 105 protruding from 7b.
Is accommodated and the electric wire lead wire 6 is prevented from moving toward the upper opening end side by the locking projection 105. In addition, the locking protrusion 105 has a storage space 17 from the partition walls 17a and 17b.
Of the partition walls 17a, 17b on the bottom surface side while forming a tapered surface 105a inclined toward the bottom of the
A more vertical surface 105b is formed, and the locking projection 105 has a substantially triangular cross section. That is, when the electric path lead wire 6 having a substantially circular cross section is inserted into the cutout groove 15 from the upper opening end, the insertion of the electric path lead wire 6 is guided by the tapered surface 105a of the locking projection 105, and conversely, the electric path lead wire 6 is inserted. Is bent toward the upper opening end side due to an electromagnetic repulsive force or the like, the bottom surface 105b of the locking projection 105 has the partition walls 17a, 1
Since it is formed substantially perpendicular to 7b, the electric wire lead wire 6 is prevented from coming off the locking projection 105. Therefore, according to the present embodiment, the electric circuit lead wire 6 is provided in the notch groove 15
This facilitates storage in the internal storage space 17 and makes it difficult to pull out. Moreover, since the electric circuit lead wires 6 inserted into the cutout grooves 15 are individually stored in the storage spaces 17 _1, ... Formed by the locking projections 105, the distance between the electric circuit lead wires 6 can be maintained. The heat generated from the electric circuit lead wire 6 can be easily dissipated.

On the other hand, the engaging groove 106 is formed in each block A ₁ , A
It is formed along the width direction of the body 1 on the inner side surface near the upper opening end of the notch groove 15 in ₂ . Further, in the earth leakage breaker block B, it is formed along the width direction of the body 1 on the inner side surface of the body 1 ′ near the opening end of the rectangular cutout 25. Thus, each block A ₁ , A ₂ , B
After assembling the remote control breaker by assembling them, the upper edge of the notch groove 15 of each of the bodies 1, 1'is engaged with the engaging groove 106 while sliding the peripheral edge of the lid plate 24. Blocked by 24. Moreover, the lid plate 24 engages with the engagement groove 106 at the peripheral edge thereof, so that the body 1,
Since it is locked and fixed to 1 ', even if the lid plate 24 is pushed outward by the bending of the electric circuit lead wire 6, the lid plate 24 does not easily come off.

[0064]

According to the first aspect of the present invention, a contact portion configured to separate and contact a contact inserted in the main electric circuit, the closed state of the contact portion is maintained, and an abnormal current flows in the main electric circuit when the contact is closed. A circuit consisting of a contact opening and closing unit that opens the contact when it flows and a remote control opening and closing unit that opens the contact in response to a control signal from the outside when the contact is closed. Acts on the circuit breaker block, the leakage detection unit that detects leakage current or ground fault current flowing in the circuit breaker block, and the contact switching unit of the circuit breaker block when the leakage current or ground fault current is detected by the leakage detection unit. And a circuit breaker block formed by mounting a circuit breaker unit for opening the contact part inside the container body, and a plurality of circuit breaker blocks for each circuit breaker block. A remote control breaker that is assembled by being connected in parallel, wherein a circuit lead wire for electrically connecting a main circuit of each circuit breaker block and a leakage detection unit of the circuit breaker block and a circuit breaker block are input to one circuit breaker block. Since the control lead wire for sending the control signal to the other circuit breaker block is derived from different parts of the body of the circuit breaker block, the electric wire lead wire and the control lead wire can be separately wired, This has the effect of facilitating the wiring work for each lead wire.

According to a second aspect of the present invention, a notch groove having a storage space for accommodating the electric circuit lead wire is provided in each body of the circuit breaker block and the earth leakage breaker block, and the body near the open end of the notch groove. Since a projection that locks the electric circuit lead wire stored in the storage space inside the cutout groove is formed and a lid body that detachably closes the open end of the cutout groove is provided, it is easy to route the electric circuit lead wire. Also, by storing the electric path lead wire in the storage space of the cutout groove and closing the opening end of the cutout groove with the lid, the appearance of the electric path lead wire is improved without protruding from the body, and moreover, Even if the electric circuit lead wire bends due to the electromagnetic repulsive force that acts between the electric circuit lead wires when a current flows, the lid is disengaged and the electric circuit lead wire is notched because the electric circuit lead wire is locked by the locking protrusion. To stick out of There is an effect that can be stopped.

According to the third aspect of the present invention, the width dimension near the opening end side of the notch groove is made larger than at least the width dimension inside the body, so that the electric path lead wire is acted upon by the electromagnetic repulsive force acting between the electric wire lead wires. Even if the cable bends, there is a margin near the open end of the notch groove with a large width, so the bent portion of the electric circuit lead wire pushes up the lid and the electric circuit lead wire projects outside the body. There is an effect that can prevent.

According to the fourth aspect of the present invention, since the plate-shaped lid is provided with an engaging groove in the body near the opening end of the notch so that the plate-shaped lid slidably engages with the body, the lid is firmly fixed to the body. Therefore, it is possible to prevent the lid body from coming off due to the bending of the electric circuit lead wire. According to the fifth aspect of the invention, since the locking projections for individually locking the plurality of electric circuit lead wires in the storage space are provided on the inner wall of the cutout groove, a distance can be provided between the plurality of electric circuit lead wires. As a result, there is an effect that the heat generated in the electric circuit lead wire due to the current flowing can be easily dissipated.

According to a sixth aspect of the present invention, a tapered surface inclined from the inner wall of the cutout groove toward the inside of the body is formed on the opening end side of the locking projection, and the inner surface of the body is formed from the inner wall. Since the surface that does not incline toward the opening end is formed, when the electric path lead wire is pushed into the storage space from the opening end of the notch groove, the electric path lead wire is guided by the tapered surface of the locking projection, so it is easy to insert. When the electric path lead wire is locked to the locking projection, the bottom surface of the locking projection is formed with a surface that does not incline toward the opening end from the inner wall. There is an effect that it is possible to prevent the electric circuit lead wire from being restricted and protruding from the cutout groove.

According to a seventh aspect of the present invention, a plurality of circuit breakers in which a circuit board forming at least a part of the earth leakage detector is installed inside the body of the earth leakage breaker block and electrically connected to the earth leakage detector. Since the rib that locks and fixes the electric circuit lead wire from the block away from the circuit board is provided inside the body, the electric circuit lead wire is prevented from bending toward the circuit board side, and the noise radiated from the electric circuit lead wire is prevented. It is possible to suppress the influence on the circuit board due to, and to prevent malfunction and failure of the earth leakage breaker block due to noise.

[Brief description of drawings]

FIG. 1 is a partially exploded perspective view showing a first embodiment.

FIG. 2 is an exploded perspective view of the first circuit breaker block of the above.

FIG. 3 is a partially exploded perspective view of the above-mentioned first circuit breaker block.

FIG. 4 is an operation explanatory diagram of the contact opening / closing unit of the first circuit breaker block of the above, in an off state.

FIG. 5 is an explanatory diagram of an operation of the remote control opening / closing unit of the first circuit breaker block of the same in an off state.

6 (a) and 6 (b) are operation explanatory views of the remote control opening / closing unit of the first circuit breaker block of the same.

FIG. 7 is an exploded perspective view of a second circuit breaker block of the above.

FIG. 8 is a partially exploded perspective view of a second circuit breaker block of the above.

FIG. 9 is an operation explanatory diagram of the contact opening / closing unit of the second circuit breaker block of the above, in an off state.

FIG. 10 is an exploded perspective view of the earth leakage breaker block of the above.

FIG. 11 is an operation explanatory diagram of the earth leakage breaker block of the above-mentioned earth leakage breaker unit in an off state.

FIG. 12 is an operation explanatory diagram of an ON state of an earth leakage breaker unit of the earth leakage breaker block of the above.

FIG. 13 is a cross-sectional view showing another configuration of the earth leakage breaker block of the above.

FIG. 14 is an external perspective view of the above.

FIG. 15 is a plan view of the same as viewed from above.

FIG. 16 is a side plan view of the above.

FIG. 17 is a partially cutaway side view of a first circuit breaker block according to a second embodiment.

FIG. 18 is a partially cutaway side view of the second circuit breaker block of the above.

FIG. 19 is a side view of the earth leakage breaker block of the above.

FIG. 20 is a partially exploded perspective view showing a conventional example.

[Explanation of symbols]

A ₁ , A ₂ Circuit breaker block B Leakage breaker block 1, 1'Body 6 Electric circuit lead wire 7 Control lead wire 15 Notch groove 16 Outlet hole 18 Protrusion 24 Lid plate

Claims (7)

[Claims] 1. A contact part configured to separate and contact a contact inserted in a main circuit, and to maintain the closed state of this contact part and to open the contact part when an abnormal current flows in the main circuit during closing. A circuit breaker block that is equipped with a contact opening / closing unit that opens and a remote control opening / closing unit that opens the contact in response to a control signal from the outside when the contact is closed, and a circuit breaker. Leakage detection part that detects leakage current or ground fault current flowing in the breaker block, and when the leakage detection part detects leakage current or ground fault current, it acts on the contact switching unit of the circuit breaker block to open the contact part. And an earth leakage breaker block formed by mounting an earth leakage breaker unit inside the body, and a plurality of circuit breaker blocks are assembled in parallel with one earth leakage breaker block. A remote control breaker to be set up, which comprises a circuit lead wire for electrically connecting a main circuit of each circuit breaker block and a leakage detection unit of the circuit breaker block,
A remote control breaker, characterized in that a control lead wire for sending a control signal input to one circuit breaker block to another circuit breaker block is derived from different parts of the body of the circuit breaker block. 2. A notch groove having a storage space for accommodating an electric circuit lead wire is provided in each body of the circuit breaker block and the earth leakage breaker block, and the notch groove inside the notch groove is provided in the body near the open end of the notch groove. The remote control breaker according to claim 1, further comprising: a lid body that detachably closes an opening end of the cutout groove while forming a protrusion that locks an electric circuit lead wire stored in the storage space. 3. The remote control breaker according to claim 2, wherein a width dimension near the opening end side of the notch groove is made larger than at least a width dimension on the inner side of the body. 4. The remote control breaker according to claim 2, wherein an engaging groove with which the plate-like lid is slidably engaged is provided in the container near the opening end of the notch groove. 5. The remote control breaker according to claim 1, wherein a locking projection for individually locking the plurality of electric circuit lead wires in the storage space is provided on the inner wall of the cutout groove. 6. A taper surface inclined from the inner wall of the cutout groove toward the inside of the container is formed on the opening end side of the locking projection, and the inside surface of the container is inclined toward the opening end from the inner wall. The remote control breaker according to claim 5, wherein the remote control breaker is formed by forming a surface not formed. 7. An electric circuit lead from a plurality of circuit breaker blocks, wherein a circuit board forming at least a part of the leakage detector is installed inside the body of the leakage breaker block and electrically connected to the leakage detector. 7. The remote control breaker according to claim 1, wherein a rib for locking and fixing the wire away from the circuit board is provided inside the body.