JPH0733347Y2 - Remote control breaker - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a remote control breaker having an electromagnet portion that can be remotely controlled.

[Prior Art] This type of remote control breaker generally includes an electromagnet block driven by an external switch operation, and an exchange shaft for exchanging the lateral movement of the movable iron core of the electromagnet block with the longitudinal movement. , A connecting pin whose one end is rotatably connected to the exchange shaft, a link which is rotatably connected to the other end of the connecting pin, and a contact opening / closing mechanism section which opens and closes a contact through the link. ing.

FIG. 11 shows a connecting portion between the connecting pin 18 'and the link 45' of the conventional structure, in which the L-shaped upper end of the connecting pin 18 'inserted from the lower surface of the body 23 is used as a hole at the tip of the link 45'. It is inserted and connected rotatably. This connecting pin 18 'uses a substantially U-shaped metal wire to prevent the connecting pin 18' from coming off.
This is done by fitting the plate member 51 into the groove 52 formed in the body 23 on the side of the connecting portion.

[Problems to be Solved by the Invention] In such a conventional configuration, there is a problem that a separate member called a plate member 51 is required to prevent the connecting pin 18 'from coming off, and the number of parts is increased. In addition, since the connecting pin 18 'is made of metal, the molded product such as the body 23 and the plate member 51 slides against the metal, which causes wear of the molded product, which causes powder and deteriorates contact reliability. In addition, there is a problem that the operation reliability is lowered due to the decrease in the number of molded products.

The present invention is provided in view of the above points, does not require a separate member for preventing the connecting portion between the connecting pin and the link from coming off, and reduces wear due to the connecting pin,
It is intended to provide a remote control breaker with improved reliability.

[Means for Solving the Problems] In the present invention, the connecting pin is formed of a molded product, and the connecting pin and the link are rotatably connected by a concavo-convex connection, and one surface side of the connecting portion is used as a retaining member. In addition to being opposed to the wall surface of the body, the other surface is opposed to the molded product member of the arc extinguishing device.

[Operation] Then, the connecting pin and the link formed of the molded product are rotatably connected by the concavo-convex connection, and both side surfaces of this connecting portion are used as the wall surface of the molded product and the molded product member of the arc extinguishing device. Facing each other,
Wear due to sliding is reduced.

Embodiment An embodiment of the present invention will be described below with reference to the drawings. 7 (a) and 7 (b) are exploded perspective views of the entire breaker. The breaker of the present invention comprises an electromagnet block A and a contact opening / closing mechanism section B controlled by the electromagnet block A. There is. 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 provided in a box-shaped mounting base 1 made of an insulating material.
Is formed, and the electromagnet portion 3 is housed and arranged in the housing recess 2. The electromagnet portion 3 is composed of a coil 5 wound around the outer circumference 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 force of the coil 5, and the like. The fixed iron core 6 is formed in a substantially U shape, and the iron core portions 6a on both sides are inserted and arranged in the through hole 4a of the coil bobbin 4 such that the end surface of the iron core portion 6a slightly projects to the opening surface. The movable iron core 7 is fixed in a fixed plate 9 formed in a U shape, and the movable iron core 7 is fixed to a spring 10 between the movable iron core 7 and the coil bobbin 4.
It is arranged via. The spring 10 is mounted and arranged on the protrusion 4b protruding from the side surface of the coil bobbin 4.

The conversion shaft 11 formed in a substantially U-shape converts the lateral movement of the movable iron core 7 in the vertical direction, and the shaft 13 is inserted into the shaft hole 11a bored in the axial direction. Both ends of the shaft 13 are axially supported in the stepped portion 14 of the mounting base 1 to allow the conversion shaft 11 to rotate. The U-shaped pin 16 is inserted into the hole 12a of the central projection 12 provided in the center of the conversion shaft 11 and the hole 17a of the connecting piece 17 formed in the fixed plate 9,
The conversion shaft 11 is rotatably connected to the movable iron core 7 side by the V-shaped pin 16. In addition, side pieces formed on both sides of the conversion shaft 11
Protrusions 18a projecting from the lower portion of the connecting pin 18 formed of the molded product shown in FIG. 7A are inserted into the holes 15a of the fifteen and are connected. Then, as shown in FIG. 8 (b), the electromagnet portion 3 configured as described above is housed and arranged in the housing recess 2 of the mounting base 1 with the damper 19 provided on the side surface of the fixed iron core 6.

Next, the contact closing mechanism portion B will be described. On the upper surface of the body 23 made of an insulating material, a mechanism housing 25 is installed through a partition wall 24.
Has been formed. As shown in FIG. 7 (a), three holes 26a are formed in the interlocking plate 26 interlocking with three poles and made of an insulating material, and the movable contacts 27 are inserted into the holes 26a. Further, the contact pressure spring 28 is installed in the hole 26a, and the movable contact 27
An appropriate contact pressure is applied to. A recess 26c is formed on the lower surface of the interlocking plate 26, and an upper portion of an opening spring 29 that biases the interlocking plate 26 upward is mounted in the recess 26c, and the opening spring 29 is shown in FIG. As shown in a), it is accommodated in a recess 30 formed in the body 23. Interlock plate 26 is a body
It is inserted into the slit 31 of the partition wall 24 of 23, and is arranged so as to extend over each mechanism housing portion 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 is formed in a yoke 32 bent in a substantially U shape.
33 is provided, and a drive pin 34 capable of projecting from the upper and lower surfaces of the yoke 32 is mounted in the short-circuit coil 33. A movable contact 36 is provided on the lower surface of the tip of the movable contact 27.

An L-shaped mounting piece 37 is integrally formed from both lower sides of the short-circuit coil 33 and the yoke 32 forming the magnetic circuit.
37b is perforated. A lower piece 27b is integrally formed at a substantially central portion of the movable contact 27, and a hole 27c is formed in the lower piece 27b. The movable contact 27 is positioned between the two mounting pieces 37, the pin 86 is inserted through the holes 27c and 37b, and the movable contact 27 is axially supported on the yoke 32 side. At this time, since the movable contactor 27 is inserted into the hole 26a of the interlocking plate 26, the movable contactor 27 is urged upward by the opening spring 29 as shown in FIG. Receives a force in the clockwise direction about the pin 86 by the interlocking plate 26. Further, 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. A screw 40 for adjusting the current is attached to the tip of the bimetal 39.
Is screwed on.

As shown in FIG. 4A, the frame 41, which is formed in a substantially U-shape, is mounted on the body 23 by screws 42 from the lower surface of the body 23.
Fixed to. Arc-shaped long holes in both side plates 43 of the frame 41
44 is bored, and the U-shaped latch plate 48 and the leg portion 46 of the substantially H-shaped link 45 are located on the outer surface of the long hole 44.
Hole 46a of 46 and notch hole 49a that opens the tip side of the latch plate 48
Then, the rotary shaft 50 is inserted into the long hole 44 of the frame 41, and the link 45 and the latch plate 48 are rotatably connected to the frame 41 by the rotary shaft 50. Meanwhile, the side plate of the latch plate 48
A hole 48b is bored in 48a, and a shaft 41b provided in the frame 41 is inserted into the hole 48b, and the latch plate 48 is rotatably supported by the frame 41 with the shaft 41b as a fulcrum. become.

The shaft support portion 53a formed in the central portion of the latch engagement plate 53 is located between the projecting pieces 54 formed on the rear side of the frame 41, and
55 is the hole 54a of the protruding piece 54 and the hole 53 of the shaft support 53a of the latch engagement plate 53.
The latch engagement plate 53, which is inserted into b, is rotatably supported about the pin 55 inserted into the projecting piece 54 of the frame 41 as an axis. Three engaging portions 56 are provided on the front side of the latch engaging plate 53, and the engaging portions 56 are driven by the drive pin as shown in FIG. 5 (a).
It is located below the head 34a of 34 and engages with the head 34a. Further, an engaging piece having an L-shaped tip from the lower surface of the latch engaging plate 54
57 is projectingly provided, the engaging piece 57 engages with the engaging recess 58 formed in the central piece 48c of the latch plate 48, and the latch engaging plate 53
And the latch plate 48 are engaged with each other.

The drive piece 89 is attached to the yoke 87 between the L-shaped attachment pieces 88 on both sides by the pin 90, and the projection piece 87a of the yoke 87 and the frame 41 are attached.
The protrusion 41c is attached by a pin (not shown). The spring 91 is interposed between the protrusion 41d below the protrusion 41c and the tongue 87b of the yoke 87, and the yoke 87
The positioning is regulated. The drive piece 89 attached to the yoke 87 is located on the back side of the latch engagement plate 53. Further, an adjusting plate 92 is integrally projected upward from the yaw 87, and the inclination of the adjusting plate 92 is adjusted by adjusting screws 93 having an eccentric shaft from above, whereby the overall inclination of the yoke 87 is adjusted. The magnitude of the overcurrent that causes the trip operation can be adjusted by adjusting the tilt. Also, the frame 41
A spring 94 is interposed between the protrusion 41e of the latch engagement plate 53 and the concave receiving portion 53d formed on the upper surface of the latch engagement plate 53.
3 is urged in the direction of latching with the latch plate 48.

An arm piece 59 is formed on the front side of the frame 41, and a hole 59a is bored at the tip of the arm piece 59. The lower part of the handle 60 is located between the arm pieces 59, 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 attached to the frame 41 with the handle shaft 61 as an axis. It is rotatably attached. A protrusion 60b is provided so as to project from the side surface of the handle 60, and one end of a reversing spring 62 for positioning the OFF position and the ON position of the handle 60 beyond the dead center is locked to the protrusion 60b. In addition, the handle 60 has a fourth
As shown in FIG. 7C, a pressing piece 68 is formed to press the link 45 downward so as to set the link 45 to the initial position when the handle 60 is set to the off position. The trip mechanism is composed of the latch plate 48, the latch engagement plate 53, etc.
The link mechanism is composed of 45, the conversion shaft 11, the interlocking plate 26, and the like.

As shown in FIG. 7 (a), one end of the spring 95 is locked in the hole 96 of the window 41f of the frame 41, and the other end is shown in FIG. 4 (a).
The latch plate 48 is locked in the front hole 48g of the latch plate 48, and when the latch is disengaged by the spring 95, the latch plate 48 is biased in the clockwise direction to quickly release the latch of the latch plate 48. I am trying to do it. Insertion hole 97 of arc-shaped display piece 97
The handle shaft 61 is inserted through a and is arranged on the side of the handle 60. As shown in FIG. 4 (c), the locking portion 97c of the display piece 97 and the link 45 are connected by the connecting pin 98,
The rotation position of the display piece 97 is changed by the operation of the link 45 and the connecting pin 98 so that the display portion 97b marked on the surface of the display piece 97 is displayed from the display window 80a of the cover 80.

Further, the limit switch 99 driven by the protrusion 60e of the handle 60 is arranged, and by operating the handle 60, the protrusion 60e drives the actuator 99a of the limit switch 99 to open and close the internal contacts. It has become. Further, a limit switch 100 for alarm notification is provided, and the protrusion 48d of the latch plate 48 drives the actuator 100a of the limit switch 100 in the trip state to perform alarm notification. Further, recesses 45a are formed on both sides of the link 45, and the link 45 is located at the top of the interlocking plate 26 as shown in FIG.
The recesses 45a of the links 45 are respectively located below the projections 26d that are provided so as to face the inside of the upper part of the links and the links 45 are sandwiched by the projections 26d. With this protrusion 26d, even if the restoring force of the opening spring 29 due to contact welding etc.
Even when 26 does not move upward, the upward movement of the link 45 causes the concave portion 45a to lift the protrusion 26d of the interlocking plate 26,
The interlocking plate 26 is forcibly moved upward to open the contacts. Therefore, when it is turned off, the interlocking plate 26 is shockedly pulled up by the restoring force of the movable iron core 7, so that contact welding is unlikely to occur. Further, as shown in FIG. 7 (b), a limit switch 122 is provided, and this limit switch 122 is for holding the electromagnet part 3 by itself when the main contact is closed.

The electromagnet block A and the contact opening / closing mechanism B are connected as follows. That is, a penetrating portion that penetrates the body 23 vertically is formed on the bottom surface of the body 23, and the connecting pin 18 is vertically inserted and arranged in the penetrating portion. Insert it into the hole 15a of 11,
The protrusion 18b formed on the upper part of the connecting pin 18 is the arm piece 4 of the link 45.
The conversion shaft 11 and the link 45 are connected by the connecting pin 18 by being inserted into the hole 47a of the hole 7. With these connection configurations, the horizontal movement of the electromagnet portion 3 is converted into the vertical movement by the connecting pin 18, and the movement of the electromagnet portion 3 is transmitted to the link 45. A load-side terminal portion 70 is arranged at one end of the mechanism housing portion 25. This terminal part 70 includes a terminal screw 70a and a tightening plate 70b.
And a terminal board 70c and the like. The tip of the terminal plate 70c and one end of the short-circuit coil 33 are fixed to each other, a braid wire 71 is connected between the other end of the short-circuit coil 33 and the upper end of the bimetal 39, and the lower part of the bimetal 39 is a braid. It is connected to the base of the movable contactor 27 via a wire 72.

On the other side of the mechanism housing portion 25, as shown in FIG. 7B, a terminal portion 73 on the power source side is arranged. The terminal part 73 is
It is composed of a, a fastening plate 73b, a terminal plate 73c and the like. An arc horn 74 is provided on the upper surface of the terminal plate 73c. A fixed contact 75 facing the movable contact 36 is fixed on the end of the terminal plate 73c. Arc extinguishing device 76 consists of two side plates 77
And a plurality of grid plates 78 arranged side by side between the two side plates 77
And an insulating plate 121 respectively located outside the side plate 77, and an insulating box 79 for covering these. Here, both arc horns 38 and 74 are insulated boxes 79 as shown in FIG. 5 (a).
It is arranged in parallel with the grid plate 78 inside.

Next, the retaining structure of the connecting portion between the connecting pin 18 and the link 45, which is the gist of the present invention, will be described. As shown in FIGS. 1 to 3, the arm piece 47 of the link 45 is located in the groove 63 formed in the body 23, and the upper portion of the connecting pin 18 is connected through the insertion hole as described above. The inner wall surface of the groove 63 of the body 23 made of a molded product is opposed to one surface of the connecting portion, and the opening 64 of the body 23 is located on the other surface of the connecting portion. The outer surfaces of 79 face each other, and the inner wall surface of the groove 63 and the outer surface of the insulating box 79 sandwich the connecting portion between the connecting pin 18 and the link 45 to prevent the protrusion 18b from coming off. . Incidentally, FIG. 9 shows an overall plan view.

The cover 80 that covers the upper surface of the body 23 is made of an insulating material, and a window hole 81 that projects the operation portion 60d of the handle 60 from the upper surface is formed in a substantially central portion of the cover 80. A display window 80a for displaying the display portion 97b of the display piece 97 is provided on the side of the window hole 81. The display unit 97b is adapted to display the ON state, the OFF state, the trip state, etc. of the main circuit. Further, notches 83 are formed at both ends of the cover 80,
The terminal portions 70 and 73 are located in the cutout portion 83 as shown in FIG. The mounting base 1 in which the electromagnet block A is housed is mounted on the lower surface of the body 23 by the assembly screw 84 as shown in FIG. 4 (a), and the cover 80 is fixed on the upper surface of the body 23 by the assembly screw 85. To be done. Here, the upper surface of the electromagnet block A is a body made of an insulating material.
It is insulated by the bottom portion of 23, but the connecting pin 18 projects from the electromagnet block A toward the body 23 side through the penetrating portion of the body 23.

FIG. 10 shows an electric circuit diagram in which a series circuit of the short-circuit coil 33, the bimetal 39, the contacts 36, 75, etc. is inserted between the terminal portions 70, 73. Further, a series circuit of a limit switch 99 linked with the handle 60 and a limit switch 100 for alarm notification is connected between the auxiliary terminals 22 ₁ and 22 ₂ , and an alarm lamp 123 is connected to the auxiliary terminal 22 ₃ . . In addition, a limit switch 122 for self-holding is provided between the auxiliary terminals 22 ₄ and 22 _5.
Is connected to the auxiliary terminal 22 ₅ and the off indicator lamp 124
But the auxiliary terminal 22 ₆ lamp 125 for on display are then respectively connected. Further, a switch SW ₃ for ON operation is connected between the auxiliary terminals 22 ₂ and 22 ₆ and a switch SW ₄ for OFF operation is connected between the auxiliary terminals 22 ₂ and 22 ₄ . The feature of the breaker is that even if the handle 60 is turned on, the contacts 36 and 75 are not turned on and the main circuit is not energized unless the operator operates the switch SW ₃ . And switch
When SW ₄ is turned off or the handle 60 is turned off to turn off the limit switch 122, the power supply to the coil 5 of the electromagnet section 3 is cut off, the contacts 36 and 75 are opened, and the main circuit is closed. Be cut off.

Next, the operation of the breaker will be described. 4 shows a sectional view taken along the line AA of FIG. 6, and FIG. 5 shows a sectional view taken along the line BB of FIG. 4 (a) and 5 (a) show the off state, and FIGS. 4 (b) and 5 (b) show the handle 60.
Shows an off state when is on and the electromagnet part 3 is off, FIGS. 4 (c) and 5 (c) show an on state, and FIGS. 4 (d) and 5 (d) show trips. It shows the state.

First, in the off state shown in FIGS. 4 and 5 (a), the pressing piece 68 of the handle 60 presses the upper surface of the link 45 downward, and the projection 60e is the actuator of the limit switch 99. Press 99a to turn off the contact of limit switch 99. The power supply to the electromagnet unit 3 is cut off by turning off this contact. A rotary shaft 50 that pivotally supports the link 45 and the latch plate 48 is located below the elongated hole 44 of the frame 41. Also, the contacts 36, 75 of the main circuit are separated.
Next, when the handle 60 is turned on as shown in FIG. 4 (c) from the off state of FIG. 4 (a), the protrusion of the handle 60
60e separates from the actuator 99a of the limit switch 99, and the limit switch 99 turns on. Therefore, as shown in FIG. 10, power is applied to the lamp 124 and the handle 6
It is displayed that 0 is in the ON state and the electromagnet unit 3 is in the OFF state. Then, the switch SW ₃ shown in FIG. 10 is turned on to excite the coil 5 of the electromagnet section 3. At the same time, the limit switch 122 is driven to switch the internal contacts to perform self-holding. Therefore, the coil 5 continues to be excited even if the switch SW ₃ is released. At this time, the lamp 125
Lights up to indicate that it is on. When the coil 5 is excited, the movable iron core 7 is attracted to the fixed iron core 6 as shown in FIGS. 4 and 5 (c). When the movable iron core 7 is attracted, the conversion shaft 11 connected to the movable iron core 7 and the U-shaped pin 16 rotates clockwise about the shaft 13 as a fulcrum, so that the connecting pin 18 rotates the conversion shaft 11. It moves downward with the movement. When the connecting pin 18 moves downward, the connecting pin 18
A link 45 connected to the shaft rotates in a counterclockwise direction around the rotary shaft 50. Therefore, the interlocking plate 26 arranged below the link 45 is interlocked with the link 45 and moved downward against the restoring force of the opening spring 29. When the interlocking plate 26 moves downward, FIG. 5 (c)
Since the movable contact 27 is positioned in the hole 26a of the interlocking plate 26 as shown in Fig. 5, the movable contact 27 is moved downward, the movable contact 36 of the movable contact 27 and the fixed contact 75 contact each other, and the main circuit Will be energized. Here, the contact pressure spring 28 causes both contacts 36,75
An appropriate contact pressure is applied between them.

Here, when the switch SW ₄ is operated to turn off only the electromagnet section 3, the movable iron core 7 is moved to the left in the figure by the restoring force of the spring 10, as shown in (b) of FIGS. 4 and 5. Move back. This movement of the movable iron core 7 causes the conversion shaft 11 to move to the shaft 13
Rotate counterclockwise around. By the counterclockwise rotation of the conversion shaft 11, the connecting pin 18 is moved upward, and the link 45 is rotated clockwise about the rotation shaft 50. Therefore, the interlocking plate 26 from which the urging force of the link 45 has been released is moved upward by the restoring force of the opening spring 29, the movable contactor 27 is also moved upward, and the contacts 36, 75 are separated.

Next, when the handle 60 is turned off from the on position, the fourth
As shown in Fig. 5 and Fig. 5 (a), the protrusion 60 of the handle 60
e presses the actuator 99a of the limit switch 99,
Turn off the internal contacts. Therefore, when the limit switch 99 is turned off, the power supply to the electromagnet section 3 is completely cut off and the initial position is restored in the same manner as above.

Further, when turned off, FIG. 5 (a) and FIG. 8 (a)
As shown in FIG. 5, the interlocking plate 26, which is biased upward by the opening spring 29, hits the lower surface of the yoke 32 and stops, but after this, the electromagnet section 3 returns and the link 45 further rotates via the connecting pin 18. The link 45 is then moved to the protrusion 26d of the interlocking plate 26.
After contacting the
Rotates. By rotating the latch plate 48 via the rotary shaft 50 by the rotation of the link 45, the engagement recess 58 of the latch plate 48 more securely latches with the engagement piece 57 of the latch engagement plate 53. Therefore, the reset margin can be ensured, the miss lip is eliminated, and the operation reliability is improved.

Here, the link 45 that drives the interlocking plate 26 is connected to one end side of the latch plate 48 and the rotating shaft 50, and the connecting pin 18 whose end opposite to the latch plate 48 is connected to the electromagnet section 3 side. Since it is connected to the
48 and the latch engagement plate 53 (the engagement piece 57 and the engagement recess
The part that engages with 58) does not move, so stable operation can be obtained without a miss lip. In other words, since the latch portion does not come off during the on / off state, the trip operation can be reliably performed when an abnormal state occurs. Also, at the time of turning on and off, each member attached to the frame 41 is pin-connected to all members,
Long life can be expected.

Next, the case of the trip state will be described. First, the case where the main circuit is short-circuited will be described. In the case of a short-circuit, a large current flows, so that 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, the rotating shaft 50 that pivotally supports the link 45 and the latch plate 48 as shown in FIG. Is located in. The latch plate 48 is engaged with the engagement piece 57 of the latch engagement plate 53. Also, the latch engagement plate 53
The engaging portion 56 is engaged with the head portion 34a of the drive pin 34 as shown in FIG. 5 (c).

As shown in FIG. 4 and FIG. 5 (d), when a short circuit occurs, the drive pin 34 is sucked and driven downward by the electromagnetic force generated in the short circuit coil 33. The downward movement of the drive pin 34 presses the engagement portion 56, and the pin 55 is used as a shaft for the latch engagement plate.
53 rotates counterclockwise. Then, the engagement piece 57 of the latch engagement plate 53 and the engagement recess 58 of the latch plate 48 are disengaged from each other, and the latch plate 48 is brought into a free state, and the link 45 causes the interlocking plate 26 by the restoring force of the opening spring 29. Is urged upwards via the link
45, the rotating shaft 50 moves to the upper end of the long hole 44 of the frame 41. At this time, the latch plate 48 rotates clockwise about the shaft 41b as a fulcrum by the restoring force of the spring 95,
The protrusion 48d presses the actuator 100a of the limit switch 100 to switch the contact and turn on the alarm lamp 123 to display the trip state, and the coil 5 of the electromagnet unit 3
Cut off the power supply to. Therefore, when the interlocking plate 26 is released from the downward urging force, the movable contact 27 also moves upward and contacts.
36,75 will be separated.

Further, at the time of trip, since the notch hole 49a of the latch plate 48 connected to the link 45 is opened on the end side,
The opening operation of link 45 has been accelerated. That is, when the periphery of the cutout hole 49a is closed, the link 45 and the latch plate 48 move in conjunction with each other until the contact opening is completed. Delay time becomes longer. However, as described above, the cutout hole 49a
Since the end of the link 45 on the side of the link is open, the link 45 and the latch plate 48 work together until the middle of the trip, but from a certain point, the rotary shaft 50 has a notch hole 49 in the latch plate 48.
Since the link 45 moves away from the latch plate 48 after being ejected from a, the movement of the link 45 becomes faster, so that the mechanical delay time can be shortened and the contact opening characteristic is improved.

In addition, since the coil 5 is de-energized during the trip, the movable iron core 7 also tries to return. However, when the movable iron core 7 returns a little, the connecting pin 18 tries to move upward by the conversion shaft 11, An abutting piece 47b projecting from the tip of 45 abuts against the wall surface 23b of the projecting portion 23a formed on the body 23 to prevent the connecting pin 18 from moving upward. That is, during normal on / off, the link 45 rotates about the rotary shaft 50, and therefore operates smoothly without contacting the wall surface 23b of the protrusion 23a. The link 45 receives more restoring force, one is the side edge of the rotary shaft 50 and the long hole 44 of the frame 41, and the other is the link.
The link 45 is sandwiched between a part of 45 and the wall surface 23b of the protrusion 23a, and the upward movement of the link 45 is prevented. Therefore, the link 45, which has been prevented from moving upward, is attached to the pressing piece of the handle 60.
At 68, move one end of the link 45 to the lower end of the long hole 44,
Since only the manual operation of the handle 60 can be reset, remote reset by only the electromagnet section 3 can be reliably prevented, which is safe.

Further, when an overcurrent flows, the bimetal 39 bends, and the screw 40 attached to the tip of the bimetal 39 presses the back surface of the drive piece 89 as shown in (d) of FIGS. 4 and 5. The latch engagement plate 53 is rotated by the rotation of the drive piece 89.
It is rotated counterclockwise about b as a fulcrum to release the engagement of the engagement piece 57 with the latch plate 48. As a result of this release, the link 45 moves upward as in the previous case, the urging force on the interlocking plate 26 is released, and the contacts 36, 75 are opened.

Next, after the trip operation, when the handle 60 is in the on position and the display of the display portion 97b of the display piece 97 is viewed, the handle 60 is turned off as shown in FIGS. 4 and 5 (a), The link 45 or the like is positioned downward by the pressing piece 68 of the handle 60, and the latch plate 48 is rotated counterclockwise to form the engaging recess 58 of the latch plate 48 and the engaging piece 57 of the latch engaging plate 53. Can be engaged and reset. Therefore, by providing the pressing piece 68 on the handle 60, a manual reset can be easily performed.

The display piece 97 rotates about the handle shaft 61 separately from the handle 60, and the position of the display portion 97b is changed by the inclination of the link 45. That is, as shown in FIG. 4 and FIG. 5, since the inclination of the link 45 differs depending on the on state, the off state, the trip state, etc., the link pin 98 rotates according to the inclination and the display is made through the display window 80a. It is supposed to do.

[Effects of the Invention] As described above, the present invention is configured such that the connecting pin is formed of a molded product and the connecting pin and the link are rotatably connected by the concavo-convex connection, and one surface side of the connecting portion is used as a retaining member. Since the other side is made to face the molded product member of the arc-extinguishing device while facing the wall surface of the body, the connecting pin and the link made of the molded product are rotatably connected by concavo-convex connection. Both sides of the connecting part are made to face the wall surface of the body of the molded product and the molded product member of the arc-extinguishing device to reduce wear due to sliding. No members are required, the number of parts can be reduced, and because the connecting pin is made of a molded product, wear with other members can be reduced and reliability can be improved. Light weight pin, less inertia and quick response The effect is obtained.

[Brief description of drawings]

1 is a sectional view of an essential part of an embodiment of the present invention, FIG. 2 is a perspective view of an essential part of the same, FIG. 3 is an exploded perspective view of an essential part of the same, and FIG. 4 is B- in FIG. FIG. 3B is a sectional view showing the sectional view in the state B, FIG. 7A is a sectional view in the OFF state, FIG. 7B is a sectional view in the case where the electromagnet portion is in the OFF state, and FIG. (D) is a cross-sectional view in a trip state, FIG. 5 is a cross-sectional view taken along the line AA in FIG. 6 above, (a) is a cross-sectional view in the off state, and (b) is the electromagnet section in the off FIG. 6C is a sectional view in the ON state, FIG. 6D is a sectional view in the trip state, FIG. 6 is a plan view of the same as above, and FIG. 7A is the same as above. Exploded perspective view, FIG. 7 (b) is an exploded perspective view of the above, FIG. 8 (a) is an exploded perspective view of the same, FIG. 8 (b) is an exploded perspective view of the same, and FIG. 9 is a plan view of the same. Figure, first
FIG. 10 is an electric circuit diagram of the above, and FIG. 11 is an exploded perspective view of essential parts of a conventional example. 11 is a conversion axis, 18 is a connecting pin, 23 is a body, 45 is a link,
76 is an arc extinguishing device, and A is an electromagnet block.

Claims (1)

[Scope of utility model registration request] 1. An electromagnet block driven by a switch operation from the outside, an exchange shaft for exchanging a horizontal movement of a movable iron core of the electromagnet block for a vertical movement, and one end of the exchange shaft is rotatable. A connecting pin that is connected, a link that is rotatably connected to the other end of the connecting pin, a contact opening and closing mechanism that opens and closes the contact through this link, and an arc extinguishing arc that is generated when the contact is opened. In a remote control breaker equipped with a device, the connecting pin is composed of a molded product, and the connecting pin and the link are rotatably connected by a concavo-convex connection, and one surface side of the connecting portion is a wall surface of a body for preventing slippage. The remote control breaker is characterized in that the other side is opposed to the molded product member of the arc extinguishing device.