JP2654158B2 - Breaker operation display mechanism - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation display mechanism of a breaker having a remotely operable electromagnet unit.

[Prior Art] In a conventional breaker of this type, a movable contact having a movable contact fixed to a fixed contact is driven in accordance with the vertical movement of a movable frame. The movable frame is connected to a link mechanism that operates in accordance with the presence or absence of an external signal only when an auxiliary contact that is turned on and off by operating a handle is in an on state. In addition, a display projection is formed at the upper end of the movable frame to notify the user when the contact is in an off state or during a trip operation.

[Problem to be Solved by the Invention] In such a conventional example, even when the contact is turned off or during a trip operation, the display projections protrude from the cover. However, there is a problem that it is not known whether the contact state is off or during a trip operation.

The present invention has been made in view of the above points, and has as its object to provide a breaker operation display mechanism for the purpose of making it possible to see the contact state at a glance.

[Means for Solving the Problems] According to the present invention, an upside down handle that protrudes outside from a window hole of a cover, an auxiliary contact that is turned on and off by operating the handle, and an auxiliary contact that is turned on A link mechanism that drives the main contact ON / OFF in accordance with the presence or absence of an external signal only when a sensor detects an abnormal load current.The sensor output drives the link mechanism to forcibly open the main contact. A trip indicator for displaying the on / off state of the main contact in conjunction with the link mechanism, and a display projection which can protrude to the outside from the display window of the cover when the main contact is turned off. A display body which is rotatably supported and pivotally connected to the trip mechanism to rotate the display body during a trip operation to expose a trip display portion to the window hole of the cover. [Operation] Accordingly, the present invention provides a flip-type handle protruding outside from a window hole of a cover, and an auxiliary contact that is turned on and off by operating the handle. And a link mechanism for driving the main contact on / off in accordance with the presence or absence of an external signal only when the auxiliary contact is on, a sensor for detecting an abnormality in the load current, and driving the link mechanism with the output of the sensor. A trip mechanism for forcibly opening the main contact, and a display projection that displays the on / off state of the main contact in conjunction with the link mechanism and is capable of protruding outside from the display window of the cover when the main contact is off. In the breaker, a trip display portion is provided on the surface, and a display body rotatably supported on the surface, and the display body is rotated in trip operation in conjunction with the trip mechanism to trip the window hole of the cover. Since a link for exposing the indicating portion is provided, the display projection is projected outside from the display window during the trip operation, and the display body linked with the trip mechanism is rotated by the link to trip the display body. The display window is exposed from the window hole of the cover.Therefore, when the main contact is on, the display protrusion does not project, when the main contact is off, the display protrusion protrudes, and at the time of trip operation. The state of the main contact can be understood at a glance by exposing the trip display section by rotating the display body while the display projection protrudes.

(Example) Hereinafter, an example of the present invention will be described with reference to the drawings. FIG. 2 is a perspective view of the breaker, and FIG. 5 is an exploded perspective view of the entire breaker. The breaker according to the present invention includes an electromagnet block A and a contact switching mechanism B controlled by the electromagnet block A. Further, the breaker has a three-pole structure for three phases.

First, the electromagnet block A will be described. An upper surface is opened, and a storage recess 2 is formed in a box-shaped mounting base 1 made of an insulating material, and an electromagnet portion 3 is stored and arranged in the storage recess 2. The electromagnet unit 3 includes a coil 5 wound around the outer periphery of the coil bobbin 4, a fixed iron core 6, a movable iron core 7 attracted to the fixed iron core 6 by the magnetic attraction of the coil 5, and the like. The fixed core 6 is formed in a substantially U-shape, and the core portions 6a on both sides are inserted into the coil bobbin 4 through the insertion holes 8a of the damper 8.
Is inserted and arranged in the through hole 4a so that the end face of the iron core 6a slightly projects from the opening face. The movable core 7 is fixed in a U-shaped fixed plate 9, and is disposed between the movable core 7 and the coil bobbin 4 with a spring 10 interposed therebetween.
The spring 10 is mounted on a projection 4b projecting between the upper and lower projecting pieces 4c of the coil bobbin 4.

The substantially U-shaped conversion shaft 11 converts the horizontal movement of the movable core 7 in the vertical direction, and the shaft 13 is inserted into a shaft hole 11a drilled in the axial direction. This axis 13
Is a groove 14a formed on the upper surface of the step portion 14 of the mounting base 1.
Both ends are rotatably supported inside, and the conversion shaft 11 is rotatable. Hole of central projection 12 drilled in the center of conversion shaft 11
A U-shaped pin 16 is inserted into 12a and a hole 17a of a connecting piece 17 formed in the fixing plate 9, and the conversion shaft 11 is rotatably connected to the movable iron core 7 by the U-shaped pin 16. You. Also, connecting pins 18 are inserted into holes 15a of side pieces 15 formed on both sides of the conversion shaft 11.
Are connected to each other by inserting one end 18a. Thus, the electromagnet portion 3 configured as described above is mounted on the side of the fixed iron core 6 in the storage recess 2 of the mounting base 1 with a damper.
19 is provided and stored. A terminal storage portion 20 is formed at an end of the mounting base 1 on the side of the storage recess 2, and a notch portion 21 is formed in the terminal storage portion 20.
An auxiliary terminal 22 is attached to 21.

Next, the contact opening / closing mechanism B will be described. On the upper surface of the body 23 made of an insulating material, three mechanism housing portions 25 are formed with a partition wall 24 interposed therebetween. Interlocking plate made of insulating material interlocking 3 poles
The hole 26a is formed with three holes 26a, and the movable contact 27 and the contact pressure spring 28 are inserted into the holes 26a. A projection 26b is integrally protruded from the lower surface of the interlocking plate 26.
The upper part of an opening spring 29 for urging the upper part 26 is mounted, and the opening spring 29 is, as shown in FIG.
Are housed and arranged in a recess 30 formed therein. Link plate 26
Are inserted into the slits 31 of the partition wall 24 of the body 23 and are arranged so as to extend over the respective mechanism storage sections 25. A sensor for detecting an overcurrent or a short-circuit current is arranged in the mechanism housing portion 25, and a short-circuit coil 33 is provided in a yoke 32 formed by bending into a substantially U-shape. A drive pin 34 that can be protruded is mounted on the upper and lower surfaces of the yoke 32. The base of the movable contact 27 having the main movable contact 36 fixed to the lower surface of the distal end and the base of the contact pressure spring 28 are fixed together by caulking, and the contact pressure spring 28 is positioned above the movable contact 27. A conical spring 35 is interposed between the lower surface of the yoke 32 and the upper surface of the base such as the contact pressure spring 28.

L-shaped mounting pieces 37 are integrally formed on both sides of the lower part of the yoke 32 constituting the short circuit coil 33 and the magnetic circuit, and a projection 37a is integrally protruded inside the both mounting pieces 37. Movable contact 27
A concave portion 27a having a lower surface depressed upward is formed at a substantially central portion of the movable contact 27 along with the contact pressure spring 28 so that the movable contact 27 is located between the two mounting pieces 37. The projection 37a of the mounting piece 37 is engaged. At this time, since the movable contact 27 and the contact pressure spring 28 are inserted into the holes 26a of the interlocking plate 26, the interlocking plate 26 urged upward by the opening spring 29 as shown in FIG. The movable contact 27 is projected by the interlocking plate 26
It receives a clockwise rotation about 37a. Also, as shown in FIG. 7B, the movable contact
The base of 27 is urged downward, and similarly receives a clockwise force about the projection 37a. An arc horn 38 having a U-shaped tip is provided from one end of the yoke 32, and a bimetal 39 for detecting an overcurrent is provided at the other end. Bimetal 39 tip with current adjustment screw
40 is screwed.

The substantially U-shaped frame 41 is shown in FIG.
As shown in the figure, the body 42 is
Fixed to 23. An arc-shaped long hole 44 is formed in both side plates 43 of the frame 41, and a U-shaped latch plate 48 and a leg 46 of a substantially H-shaped link 45 are located on the outer surface of the long hole 44. The rotary shaft 50 is inserted through the hole 46 a of the leg 46, the long hole 49 of the latch plate 48, and the long hole 44 of the frame 41, and is linked by the rotary shaft 50.
The 45 and the latch plate 48 are rotatably connected to the frame 41. On the other hand, a hole 48b is drilled at a substantially central portion of the side piece 48a of the latch plate 48, and a latch plate 48 is provided between the shaft support piece 51 extending upward from the lower portion of the frame 41 and the side plate 43.
Side piece 48a is located, the hole 51a of the shaft support piece 51 and the hole of the latch plate 48
By inserting the pin 52 into the hole 48a and the hole 41a of the side plate 43, the latch plate 48 is rotatably supported by the frame 41 around the pin 52.

A shaft support 53a formed at the center of the latch engagement plate 53
Are located between the projecting pieces 54 formed on the rear side of the frame 41, and the pin 55 is a hole 54a of the projecting piece 54 and a hole of the shaft support 53a of the latch engagement plate 53.
The latch engagement plate 53 is rotatably supported on a pin 55 inserted through the projecting piece 54 of the frame 41 as an axis. On the front side of the latch engagement plate 53, three engagement portions 56 are protruded, and the engagement portions 56 are driven by driving pins as shown in FIG.
34 is located below the head 34a and engages with the head 34a. Also, an engagement piece having a L-shaped tip from the lower surface of the latch engagement plate 53
A projection 57 is provided, and this engagement piece 57 engages with an engagement recess 58 formed in the central piece 48c of the latch plate 48, and the latch engagement plate 53
And the latch plate 48 are engaged. Latch engagement plate 53
The screw 40 attached to the front end of the bimetal 39 is located on the rear surface 53c of the second metal member 39. The magnitude of the overcurrent that causes the trip operation can be adjusted by the amount of protrusion of the screw 40 toward the latch engagement plate 53. An arm piece 59 is formed on the front side of the frame 41, and a hole 59a is drilled at the tip of the arm piece 59. This arm piece 5
The lower part of the handle 60 is located between 9, the handle shaft 61 is inserted into the hole 60a drilled in the handle 60 through the hole 59a of the arm piece 59, and the handle 60 is rotatable about the handle shaft 61 in the frame 41. Attached to. Protrusion 60b from the side of handle 60
One end of a reversing spring 62 for positioning the handle 60 beyond the OFF position and the ON position at the dead point is locked to the protrusion 60b. In addition, the latch plate 48,
A trip mechanism is formed by the latch engagement plate 53 and the like, and a link mechanism is formed by the link 45, the conversion shaft 11, the interlocking plate 26 and the like.

Next, the gist of the present invention will be described. As shown in FIGS. 1 and 5, a shaft hole 90a of a substantially arc-shaped display body 90 is inserted through a handle shaft 61 which supports the handle 60, and the display body 90 is turned around the handle shaft 61. It is freely supported by a concentric axis with the handle 60. On the surface of the display body 90, there is provided a trip display section 94 in which a color for trip display or the like is given. On the other hand, the latch plate 48 and the display body 90 are rotatably connected to a substantially U-shaped link 93, respectively. That is, the link
One end 93a of 93 is inserted into a hole 92 drilled in a protruding piece 91 at one end of one side piece 48a of the latch plate 48 to be connected rotatably, and the other end 93b of the link 93 is connected to a display body 90. And is rotatably connected to the hole 90b. Therefore, the link 93 responds to the movement of the latch plate 48, that is, the rotation of the latch plate 48 and the vertical movement along the long hole 44, and rotates the display body 90 about the handle shaft 61 during the trip operation, As shown in FIG. 1 (b), the trip display portion 94 of the display body 90 is exposed through a window hole 81 that protrudes the operation portion 60d of the handle 60 to the outside, so that it can be easily confirmed from the next portion. I have to.

A notch 63 formed at the upper end of the frame 41 is engaged with a projection 64a protruding from both sides of the auxiliary contact device 64, so that the auxiliary contact device 64 is disposed on the upper portion of the frame 41. I have. As shown in FIG. 7 (a), an auxiliary fixed contact 66 is fixed to the lower surface of one fixed plate 65a located on the handle 60 side of the auxiliary contact device 64, and a tip is fixed to the lower surface of the other fixed plate 65b. There is provided a conductive auxiliary contact spring 67 which is located up to the handle 60. Further, a projection 60c for pressing the auxiliary contact spring 67 is formed integrally with the side surface of the handle 60 above the auxiliary contact spring 67. As shown in FIG. 7 (a), when the handle 60 is turned to the ON position, the projection 60c is separated from the auxiliary contact spring 67, and is returned upward by the return force of the auxiliary contact spring 67 itself. The fixed contact 66 is closed. Also, as shown in FIG.
When the lever is in the off position as shown in FIG.
Pushes the distal end of the auxiliary contact spring 67 downward to separate the auxiliary contact spring 67 from the auxiliary fixed contact 66 so that the auxiliary contact 67 and the auxiliary fixed contact 66 are opened. In addition, handle 60
As shown in FIG. 6 (c), there is formed a pressing piece 68 for pressing the link 45 downward so as to set the link 45 to the initial position when the handle 60 is turned to the off position.

The connection between the electromagnet block A and the contact opening / closing mechanism B is performed as follows. That is, the partition wall 24 of the body 23 is provided with a through hole 69 penetrating the upper and lower surfaces of the body 23, and the connecting pin 18 is inserted into the through hole 69, and one end 18a of the connecting pin 18 is The other end 18b of the connecting pin 18 is inserted into the hole 47a of the arm 47 of the link 45,
The conversion shaft 11 and the link 45 are connected by the connection pin 18. With these connection configurations, the horizontal movement of the electromagnet section 3 is converted into the vertical movement by the connection pin 18, and the movement of the electromagnet section 3 is transmitted to the link 45. Mechanism storage section 25
A load-side terminal unit 70 is provided at one end of the terminal. This terminal
70 includes a terminal screw 70a, a fastening plate 70b, a terminal plate 70c, and the like. The distal end of the terminal plate 70c is fixed to the lower end of the short-circuit coil 33, and the upper end of the short-circuit coil 33 and the upper end of the bimetal 39 are connected by a braided wire 71, and the lower part of the bimetal 39 is a braided wire. It is connected to the base of the movable contact 27 via 72.

On the other side of the mechanism housing section 25, a terminal section 73 on the power supply side is provided. The terminal part 73 includes a terminal screw 73a, a clamping plate 73b, and a terminal plate 73c.
And so on. An arc portion 73d curved in an arc shape is formed on both sides inside the terminal plate 73c, and an arc horn 74 is provided on the front side of the arc portion 73d. Also, the arc
A fixed contact 75 facing the movable contact 36 is fixed on the terminal plate 73c inside 73d. The arc portion 73d is formed on the terminal plate 73c because the electromagnetic force generated by the current flowing through the arc portion 73d urges the arc generated when the contacts 36 and 75 are opened toward the decoupling device 76. Thus, the arc is quickly extinguished, and the movable contact 27 is quickly opened. The extinction device 76 includes two side plates 77 and two side plates 77.
It is composed of a plurality of grid plates 78 arranged side by side, and an insulating box 79 covering them. Where both arc horns
As shown in FIG. 7 (a), 38 and 74 are arranged side by side with the grid plate 78 in the insulating box 79.

A cover 80 covering the upper surface of the body 23 is made of an insulating material, and a window hole 81 is formed in a substantially central portion thereof so as to project the operation portion 60d of the handle 60 from the upper surface. Further, a display window 82 is formed on the side of the window hole 81 so that a display projection 26c formed above the interlocking plate 26 can freely project therefrom. This display projection 26c
Indicates that the movable contact 36 and the fixed contact 75 are closed if they do not protrude from the display window 82, that is, the energized state where the main circuit is connected.If the display projection 26c protrudes from the display window 82, the movable contact 36 And that the fixed contact 75 is open, that is, that the main circuit is shut off. Notches 83 are formed at both ends of the cover 80, and the terminals 70 and 73 are located in the notches 83 as shown in FIG. The mounting base 1 in which the electromagnet block A is accommodated is mounted on the lower surface of the body 23 by assembling screws 84 as shown in FIG. 6A, and the cover 80 is fixed to the upper surface of the body 23 by assembling screws 85. Is done. Here, the upper surface of the electromagnet block A is insulated by the bottom of the body 23 made of an insulating material. However, from the electromagnet block A, the connecting pin 18 is connected to the body 23 through the through hole 69 of the body 23. It is protruding.

FIG. 9 shows an electric circuit diagram in which a series circuit including a short-circuit coil 33, a bimetal 39, and contacts 36 and 75 is introduced between the terminal portions 70 and 73. Also, the series circuit of the coil 5 of the auxiliary contact SW ₁ and the electromagnet portion 3 constituted by the auxiliary stationary contact 66 and the auxiliary contact spring 67 is connected to the auxiliary terminal 22. The external switch SW ₂ is is connected to the auxiliary terminal 22.
Features of the breaker, the main circuit the main contacts 36,75 are not turned on as long as an external switch SW ₂ by the operator does not operate even if the handle 60 is turned on are those so as not to be energized. Then, it turns off the external switch SW _2, or series handle 60 if OFF operation to clear the auxiliary contacts SW _1, the coil 5 of the auxiliary contact SW ₁ and the external switch SW ₂ and the electromagnet 3 The electromagnet part 3
Is cut off, the contacts 36 and 75 are opened, and the main circuit is cut off.

Next, the operation of the breaker will be described. FIG. 7 is a sectional view taken along line AA of FIG. 3, and FIG. 6 is a sectional view taken along line BB of FIG.
FIG. 6 (a) and 7 (a) show the ON state, and FIGS. 6 (b) and 7 (b) show the handle.
Shows an off state when 60 is on and the electromagnet unit 3 is off,
6 (c) and 7 (c) show an off state, and FIGS. 6 (d) and 7 (d) show a trip state. 8 shows a cross-sectional view as viewed from the opposite side of FIG. 6, wherein FIG. 8 (a) shows the on state, FIG. 8 (b) shows the remote off state, and FIG. (D) shows a trip state, and FIG.

First, from the off state of FIG. 6 (c) is turned on operating the handle 60 as shown in FIG. 6 (a), the auxiliary contact projection 60c is separated from the auxiliary contact spring 67 of the auxiliary contact SW ₁ of the handle 60 spring 67 is restored and the auxiliary contact is turned on as shown in FIG.
SW ₁ is closed. Therefore, the external switch S shown in FIG.
If W ₂ is on, the coil 5 of the electromagnet unit 3 is excited,
The movable core 7 is attracted to the fixed core 6 as shown in FIGS. 6 and 7A. When the movable iron core 7 is sucked, the conversion shaft 11 connected to the movable iron core 7 and the U-shaped pin 16
In order to rotate clockwise with the fulcrum as a fulcrum, the connecting pin 18 moves downward with the rotation of the conversion shaft 11. When the connecting pin 18 moves downward, the link connected to the connecting pin 18
45 rotates counterclockwise about the rotation shaft 50. Therefore, the interlocking plate 26 disposed below the link 45 is
It is moved down against the return force of. When the interlocking plate 26 moves down,
Since the movable contact 27 and the contact pressure spring 28 are located in the hole 26a of the interlocking plate 26 as shown in FIG.
The contact pressure spring 28 is moved downward, and the main movable contact 36 of the movable contact 27 and the main fixed contact 75 come into contact with each other by the contact pressure of the contact pressure spring 28,
The main circuit will be energized.

Here, turning off only the electromagnet unit 3 with an external switch SW _2, as illustrated in the FIG. 6 and FIG. 7 (b), the return movement by the return force of the movable iron core 7 springs 10 to the left in FIG. I do. Due to the movement of the movable core 7, the conversion shaft 11 rotates counterclockwise about the shaft 13. The connecting pin 18 is moved upward by the counterclockwise rotation of the conversion shaft 11, and the link
Rotate 45 clockwise. Therefore, the interlocking plate 26 from which the urging force of the link 45 is released is moved upward by the return force of the opening spring 29, so that the movable contact 27 also moves upward, and the main contacts 36 and 75 are separated. Also, at this time, the urging force of the spring 35 urging the base of the movable contact 27 and the return force of the opening spring 29, together with the projection 37a, rotate counterclockwise at once to open the pole. It is.

Next, when the handle 60 is turned off from the on position, as shown in FIG. 6 and FIG.
60c is that presses against the auxiliary contact spring 67 of the auxiliary contact SW ₁ downwards, the auxiliary contact spring 67 is separated from the auxiliary fixed contact 66 auxiliary contacts SW ₁ to opening. Therefore, it is cut off energization of the electromagnet unit 3 by opening of the auxiliary contact SW _1, the connecting pin 18 or the like to opening the main contacts 36,75 perform the same operation as described above.

Next, the case of a trip state will be described. First, a case where the main circuit is short-circuited will be described. In the case of a short-circuit, since a large current flows, an electromagnetic force is generated in the short-circuit coil 33 and a trip operation is performed. Here, in a normal state before a short circuit occurs, as shown in FIG.
The rotating shaft 50 that supports the latch plate 48 and the
Is located below the long hole 44. The latch plate 48 is engaged with the engagement piece 57 of the latch engagement plate 53. Also, the latch engagement plate
As shown in FIG. 7 (a), the engaging portion 56 of the drive pin
With the head 34a. When a short circuit occurs, the driving pin 34 is driven downward by the electromagnetic force generated in the short circuit coil 33. The downward movement of the drive pin 34 pushes the engagement portion 56, and the latch engagement plate 53 rotates counterclockwise about the pin 55. Then, the latch plate 48 in which the engagement piece 57 of the latch engagement plate 53 is disengaged from the engagement recess 58 of the latch plate 48 is in a free state, and the link 45 is moved by the return force of the opening spring 29 to the interlocking plate 26. Is urged upward through the link 45 and the link 45 is
Moves to the upper end of the long hole 44 of the frame 41.
Accordingly, when the downward urging force of the interlocking plate 26 is released, the movable contact 27 also moves upward, and the contacts 36 and 75 are separated. At this time, since the drive pin 34 is suddenly sucked downward, the lower end of the drive pin 34 contacts the base of the movable contact 27 to apply a clockwise rotational force of the movable contact 27 to the movable contact 27. At a stretch to open the main contacts 36 and 75.

Here, the display projection 26c can freely protrude from the display window 82 in accordance with the vertical movement of the interlocking plate 26. When the main contacts 36 and 75 are separated, the display projection 26c protrudes from the display window 82 and the main contact 36 , 75 are closed, the interlocking plate 26 moves down, so that the display projection 26c does not protrude from the display window 82, and the main contact 36,
It displays 75 contacts and opens.

Also, when an overcurrent flows, the bimetal 39 bends,
The screw 40 attached to the tip of the bimetal 39 is the latch engagement plate 53
The latching plate 53 is rotated counterclockwise around the pin 55 to release the engagement of the engaging piece 57 with the latch plate 48. With this release, the link 45 moves upward as in the previous case, and the urging force on the interlocking plate 26 is released, and the main contact
36,75 will be opened.

Next, after the trip operation, when the handle 60 is in the ON position and the display projection 26c is projected, the external switch S
By turning off W ₂ , the electromagnet section 3 is turned off and the movable core 7 is returned, so that the connecting pin 18 is moved upward by the conversion shaft 11 as shown in FIGS. 6 and 7B. Let me link 45
Is moved as shown. Then, as shown in FIGS. 6 and 7C, the handle 60 is operated to the off position to return to the off state. Further, the handle 60 is turned off, and the connecting portion between the link 45 and the latch plate 8 is pressed downward by the pressing piece 68 of the handle 60 to rotate the latch plate 48 in the counterclockwise direction so that the latch plate 48 The engagement recess 58 and the engagement piece 57 of the latch engagement plate 53 can be engaged and reset. At this time, the auxiliary contacts SW ₁ by off operation of the handle 60 is turned off so that, returning to the initial position the movable iron core 7 of the electromagnet 3 is returned. Therefore, the reset can also be performed by stopping the operation of the handle 60 and the supply of the voltage of the electromagnet section 3 and the movable iron core 7 returning.

Here, when the main contacts 36 and 75 are turned on or off in a normal state, the latch plate 48 does not trip, so that the rotating shaft is rotated as shown in FIGS. 1 (a) and 8 (a). 50 is located at the lower end of the long hole 44 of the frame 41, so that the display body 90 rotates clockwise through the link 93, and the trip display section 94 is in the cover 80 and Is not exposed. When the trip operation is performed, as shown in FIGS. 1B and 8D, the latch plate 48 is disengaged from the engagement piece 57 of the latch engagement plate 53, and the latch plate 48 is released. Is rotated clockwise, and the rotating shaft 50 moves to the upper part of the long hole 44, so that the link 93 is also rotated, and the display body 90 is rotated counterclockwise. Therefore, the trip display section 94 of the display body 90 is exposed to the window hole 81 of the cover 80 to indicate that the apparatus is in a trip state. At this time, as described above, the display protrusion 26c also projects from the display window 82.

Figure 10 is provided with a set switch SW ₃ and the reset switch SW _4, it is obtained to perform set and reset by switch operation. That is, the auxiliary terminal 22 ₁ is provided in comparison with the case of FIG. 9, these auxiliary terminals 22 ... to at push button type and set switch SW ₃ of the normally open type, connect the reset switch SW ₄ normally-closed by a push button type is obtained by connecting the contact point S ₁ of the electromagnet 3 between the auxiliary contact SW ₁ and the auxiliary terminal 22. When turning on the set switch SW ₃ the handle 60 is turned on, the coil 5 of the electromagnet portion 3 is excited to turn on, therefore, the self-holding contact S ₁ is turned on. After contact S ₁ is made a self-retained, since the electromagnet unit 3 also release the set switch SW ₃ is ON, by performing the above-described operation,
The main circuit will be energized. Next, the reset switch SW ₄ which is inserted in series between the power supply and the contact S ₁
By pressing, the power is cut off, and the electromagnet unit 3 is turned off to be in a reset state.

FIG. 11 is obtained by so as not to be reset and off operation of the handle 60, by stopping the supply of the power supply of the electromagnet unit 3 turns off the external switch SW _2, so that it can not be reset by the return of the movable core 7 It was done. That is, FIG. 11 shows a state in which the supply of power to the electromagnet section 3 is stopped after the trip and the movable iron core 7 is to be restored, and when the movable iron core 7 is slightly restored, the connecting pin 18 is raised by the conversion shaft 11. In this case, a contact piece 45a protruding from the tip of the link 45 hits a protrusion 23a formed on the body 23 to prevent the connection pin 18 from moving upward. Therefore, after the trip, the trip mechanism cannot be reset only by stopping the application of the voltage of the electromagnet unit 3. In order to perform the reset, the handle 60 is turned off, and the pushing operation piece 68 of the handle 60 pushes the connecting portion between the link 45 and the latch plate 48 downward by the turning operation of the handle 60, and this pushing contact The rotating shaft 50 moves to the lower end of the long hole 44, and therefore, the latch plate 48
, The engagement concave portion 58 of the latch plate 48 is engaged with the engagement piece 57 of the latch engagement plate 53 to be reset. Then, a state as shown in FIG. 6C is obtained. With this configuration, the steering wheel 60 is not reset unless the handle 60 is manually turned off without fail, and cannot be reset by operating the remote control side, thereby ensuring work safety on the remote control breaker side. Is what you can do.

[Effects of the Invention] As described above, the present invention provides a flip-type handle protruding outside from a window hole of a cover, an auxiliary contact that is driven on and off by operating the handle, and an auxiliary contact that is turned on. A link mechanism that drives the main contact ON / OFF in accordance with the presence or absence of an external signal only when a sensor detects an abnormal load current.The sensor output drives the link mechanism to forcibly open the main contact. A trip indicator for displaying the on / off state of the main contact in conjunction with the link mechanism, and a display projection which can protrude to the outside from the display window of the cover when the main contact is turned off. A display body which is rotatably supported and pivotally linked to the trip mechanism to rotate the display body during a trip operation to expose a trip display section to the window hole of the cover. During the trip operation, the display projection protrudes from the display window to the outside, and the display body linked with the trip mechanism is rotated by the link, and the trip display window of the display body is closed. The display projection is not exposed when the main contact is on, the display projection is protruded when the main contact is off, and the display projection is protruded during the trip operation. At the same time, by rotating the display body to expose the trip display section, the state of the main contact can be understood at a glance.

[Brief description of the drawings]

FIG. 1A is a sectional view showing an ON state of the embodiment of the present invention, FIG. 1B is a sectional view showing a trip state of the embodiment,
FIG. 2 is an overall perspective view of the same, FIG. 3 is a plan view of the same,
FIG. 4 is a side view of the same, FIG. 5 is an exploded perspective view of the whole of the same, FIG. 6 is a cross-sectional view taken along the line BB of FIG. 3, and FIG. (B) is a cross-sectional view when the electromagnet unit is turned off, (c) is a cross-sectional view in an off state, (d) is a cross-sectional view in a trip state, and FIG. 3A is a cross-sectional view taken along line AA of FIG. 3, wherein FIG. 3A is a cross-sectional view in an on state, FIG. 3B is a cross-sectional view in a case where an electromagnet portion is turned off, and FIG. FIG. 8 (d) is a sectional view of the trip state, FIG. 8 is a view of FIG. 6 as viewed from the opposite side, FIG. 8 (a) is a sectional view of the on state, and FIG. ) Is a cross-sectional view when the electromagnet portion is turned off, FIG. 9C is a cross-sectional view in an off state, FIG. 9D is a cross-sectional view in a trip state, FIG.
FIG. 11 is an electric circuit diagram of another embodiment of the above, and FIG. 11 is a sectional view of another embodiment of the above. 26c is a display projection, 60 is a handle, 80 is a cover, 81 is a window hole, 82 is a display window, 90 is a display body, 93 is a link, and 94 is a trip display section.

Claims (1)

(57) [Claims] An upside down handle protruding outside from a window hole of a cover, an auxiliary contact driven on / off by operation of the handle, and an external signal presence / absence only when the auxiliary contact is on. A link mechanism that drives the main contact ON / OFF in response to this, a sensor that detects an abnormality in the load current, a trip mechanism that drives the link mechanism with this sensor output to forcibly open the main contact, and a link mechanism A breaker having an on-off state of the main contact in conjunction with a display projection which is capable of protruding outside from the display window of the cover when the main contact is off is provided with a trip display portion on the surface, and is rotatably supported by the shaft. And a link that links the trip mechanism with the trip mechanism to rotate the display body during a trip operation to expose a trip display portion to the window hole of the cover. Breaker operation indicator mechanism that.