JP2017033734A - Circuit breaker - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid, in simple structure, a possibility for a handle and an upper link (a link at a handle arm side) to be brought into contact when the handle is tried to move to an open-circuit position in the state where a movable contact and a stationary contact of a circuit breaker are deposited.SOLUTION: Mutual opposing parts of a handle arm 15 and an upper link 51b include abutment parts 15a and 51b1 which are abutted to each other to prevent a handle 4 from being brought into contact with the upper link 51b before the handle 4 and the upper link 51b are brought into contact when the handle 4 is tried to move to the open-circuit position in the state where a movable contact 11 and a stationary contact 8 are deposited. The abutment part 15a of the handle arm is formed integrally with the handle arm 15, and the abutment part 51b1 of the upper link is formed integrally with the upper link 51b.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a circuit breaker, and more particularly to a structure of an opening / closing mechanism portion of a circuit breaker.

  As a conventional circuit breaker, for example, the structure of the opening / closing mechanism part in the conventional circuit breaker disclosed in Patent Document 1 is pivotally supported by a fixed part and is pivotable with respect to a handle arm. A toggle link mechanism having an upper link and a lower link connected to each other, and an open / close spring stretched between the connecting portion and the handle arm, and the upper link is not a pin but an arc portion of the upper link and its own A lever that is connected by the burring part and rotated by the operation of the toggle link mechanism, a cross bar that is connected to the lower link by a crossbar pin and rotated by the operation of the toggle link mechanism, a movable contact at one end, and the other end rotating. A movable contact that is pivotally supported by the crossbar and interlocks with the rotation of the crossbar, and a circuit having a fixed contact having a fixed contact that contacts and separates from the movable contact A cross unit, and a connection portion between the opening and closing spring hook portion and the handle arm of the handle of the handle arm is positioned at a position spaced from each other.

  Further, for example, in Patent Document 2, which is a conventional circuit breaker of a type different from Patent Document 1, when an abnormal current flows when the main circuit is in a closed state (on state), the fixed contact and the movable contact are welded. , A function for limiting the handle to a predetermined position between the on position and the off position (hereinafter referred to as an isolation function) is provided. In Patent Document 2, as a specific configuration example of a circuit breaker having an isolation function, when the handle is driven from the on position to the off position when the fixed contact and the movable contact are welded, the mechanism unit Is restricted, the handle cannot be rotated to the open position, and is limited to a predetermined position different from the off position.

Japanese Patent No. 5075015 Japanese Patent No. 3857139

  In Patent Document 1, when an attempt is made to move the handle to the open position with the movable contact and the fixed contact welded, the handle and the upper link (link on the handle arm side) may come into contact.

  Patent Document 2 is a circuit breaker of a type different from Patent Document 1, and when the handle is moved to the open position with the movable contact and the fixed contact welded, the handle and the upper link (the handle arm side) A structure that avoids the possibility of contact with the link is proposed, but the structure is complicated.

  This invention was made in view of the actual situation of Patent Documents 1 and 2 as described above, and when trying to move the handle to the open position with the movable contact and fixed contact of the circuit breaker welded, The object of the present invention is to avoid the possibility of contact between the handle and the upper link (link on the handle arm side) with a simple structure.

  The circuit breaker according to the present invention includes a handle arm pivotally supported by a fixed portion and operated by a handle, an upper link and a lower link pivotably connected to each other, and the connecting portion and the handle A toggle link mechanism in which an open / close spring is stretched between the arm, a crossbar connected to the lower link by a crossbar pin and rotated by the operation of the toggle link mechanism, a movable contact at one end, and the other end at the other end In the circuit breaker comprising a movable contact pivotally supported by the cross bar and interlocking with the rotation of the cross bar, and a fixed contact having a fixed contact contacting and separating from the movable contact, the handle When the opposing portion of the arm and the upper link tries to move the handle to the open position with the movable contact and the fixed contact being welded, Before the upper link and the upper link come into contact with each other to prevent the handle from coming into contact with the upper link. The contact portion of the handle arm is formed integrally with the handle arm. The contact portion of the upper link is formed integrally with the upper link.

  A circuit breaker according to the present invention includes a handle arm pivotally supported by a fixed portion and operated by a handle, an upper link and a lower link pivotably connected to each other, and the connecting portion and the handle arm. A toggle link mechanism in which an open / close spring is stretched between, a crossbar connected to the lower link by a crossbar pin and rotated by the operation of the toggle link mechanism, a movable contact at one end and the other end at the other end In the circuit breaker having a movable contact pivotally supported by the crossbar and interlocking with the rotation of the crossbar, and a fixed contact having a fixed contact contacting and separating from the movable contact, the handle arm When the handle is moved to the open position when the movable contact and the fixed contact are welded to each other, the opposing portion of the upper link Before the upper link and the upper link come into contact with each other to prevent the handle from coming into contact with the upper link. The contact portion of the handle arm is formed integrally with the handle arm. The contact portion of the upper link is formed integrally with the upper link. Therefore, when the handle is moved to the open position with the movable contact and the fixed contact welded, the handle and the upper link ( There is an effect that the possibility of contact with the handle arm side link) can be avoided with a simple structure.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which illustrates Embodiment 1 of this invention, and is an external appearance perspective view which shows a circuit breaker. It is a figure which illustrates Embodiment 1 of this invention, and is a vertical side view which shows a circuit breaker. It is a figure which illustrates Embodiment 1 of this invention and is a side view of the switching mechanism of a circuit breaker. It is a figure which illustrates Embodiment 1 of this invention, and is a side view showing the trip state in the main components of an opening / closing mechanism. It is a figure which illustrates Embodiment 1 of this invention, and is a side view showing the OFF state in the main components of an opening / closing mechanism. It is a figure which illustrates Embodiment 1 of this invention, and is a side view showing the ON state in the main components of an opening / closing mechanism. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which illustrates Embodiment 1 of this invention, and is a side view in the main components of the switching mechanism in a contact welding trip state. It is a side view at the time of handle operation (on to off) in the main parts of the switching mechanism in the contact welding trip state, and is a diagram for explaining a problem of contact between the handle and the upper link. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which illustrates Embodiment 1 of this invention, and is a side view at the time of handle operation (on to off) of the switching mechanism in the contact welding trip state of a circuit breaker. It is a figure which illustrates Embodiment 1 of this invention, and is an expanded side view of an upper link. It is a figure which illustrates Embodiment 2 of this invention, and is an enlarged side view of a handle arm.

Embodiment 1 FIG.
FIG. 1 is a perspective view of a circuit breaker in a trip state according to Embodiment 1 of the present invention. FIG. 1A is an external view, and FIG. 1B is an exploded view of a cover, a middle base, and a base from FIG. Is shown. 2 is a side cross-sectional view of the circuit breaker in the off state according to the first embodiment of the present invention, and FIG. 3 is a side view showing the structure of the switching mechanism of the circuit breaker according to the first embodiment of the present invention. . 4 shows a trip state of the circuit breaker, FIG. 5 shows an off state of the circuit breaker, and FIG. 6 shows an on state of the circuit breaker.

  In FIG. 1, the insulating casing of the circuit breaker 101 for three poles includes a cover 1, a middle base 2, and a base 3. Among them, the middle base 2 includes an opening / closing mechanism 51 having an operation handle 4, an overcurrent tripping device 52 for the number of poles (in this case, three), an overcurrent tripping device 52 for the central pole, and an opening / closing. Insulating members 54 interposed between the mechanism portions 51 are accommodated, and arc-extinguishing devices 53 corresponding to the number of poles are accommodated in the base 3. Further, with respect to the middle base 2, the side plates 2 a and 2 a of the middle base 2 are fitted into the recesses 3 a and 3 a of the base 3 in order to prevent damage due to an internal pressure increase due to an arc generated at the time of interruption. Therefore, the side plates 2a and 2a form a part of the insulating housing. The operation handle 4 protrudes from the handle window hole 1a of the cover 1 so that the operation handle 4 can be operated in the ON direction (on the paper in FIG. 1, clockwise) or the OFF direction (on the paper in FIG. 1, counterclockwise). From the positional relationship between the arc-extinguishing device 53 and the arc-extinguishing device 53, it is well known that 5 is a power supply side terminal and 6 is a load side terminal.

  Fig.1 (a) is a perspective view of the circuit breaker which completed the assembly. 1B shows a procedure for assembling the intermediate assembly shown in the figure of the cover 1, the intermediate assembly shown in the middle base 2, and the intermediate assembly shown in the base 3 in the direction indicated by the arrow X. In the illustrated view, the illustrated intermediate assembly of the cover 1, the illustrated intermediate assembly of the middle base 2, and the illustrated intermediate assembly of the base 3 are assembled in the direction indicated by the arrow X, so that FIG. The circuit breaker illustrated in a) is completed.

  As shown in FIG. 2, the overcurrent tripping device 52, the opening / closing mechanism 51, and the arc extinguishing device 53 (see FIG. 1B) are also well known. In other words, a fixed contact 9 having a fixed contact 8 at one end and fixed to the yoke 7 is connected to the power source side terminal 5 via a flexible copper wire (not shown), and a movable contact 11 is provided at one end to open and close. Contact / separation is repeated between the movable contact 13 held by the cross bar 12 that rotates in conjunction with the mechanism portion 51, and the fixed contact 8 and the movable contact 11 are particularly separated by this separation. The arc generated between the two is cut by the arc extinguishing device 53.

  As shown in FIG. 3, the opening / closing mechanism 51 includes a handle arm 15, a handle 4, an opening / closing spring 51a, an upper link 51b, a lower link 51c, a link pin 51d, a fixed frame 14, a cross bar 12, a movable contact 13, and a movable It has a contact 11, a fixed contact 9, a fixed contact 8, a crossbar pin 12a, a lever 51e, a latch 51f, and a middle base 2.

  In FIG. 3, a cross bar 12 made of synthetic resin is rotatably supported by a fixed frame 14 attached to a middle base 2 made of synthetic resin. The cross bar 12 may be configured to be rotatably supported on the middle base 2 itself.

  A movable contact 13 having one end pivotally supported by the cross bar 12 is provided inside the cross bar 12. The movable contact 13 rotates in conjunction with the cross bar 12 when the cross bar 12 rotates. The movable contact 13 has a movable contact 11 at the other end.

One end of a lower link 51c is connected to the crossbar 12 by a crossbar pin 12a.
The other end of the lower link 51c is connected to the upper link 51b by a link pin 51d.

  As shown, the upper link 51b is a link on the handle arm 15 side, and the lower link 51c is a link on the crossbar 12 side, that is, the movable contact 13 side.

  An opening / closing spring 51a is stretched between the link pin 51d and the handle arm 15 formed of a synthetic resin material and interlocking with the handle 4.

  The toggle link mechanism essential for the circuit breaker includes a lower link 51c, an upper link 51b, and a link pin 51d. The toggle mechanism includes a toggle link mechanism and an opening / closing spring 51a.

  The lever 51e is provided with a connecting portion 51e1 by burring processing for rotatably connecting to the arc portion 51b1 of the upper link 51b. The connecting portion 51e1 and the arc portion 51b1 of the upper link 51b are connected so as to be rotatable about the aerial midpoint Oeb. The lever 51e rotates around the link pin 51d. Note that the lever 51e itself is well-known and will not be described in detail.

  Next, the operation will be described. In the closed state in FIG. 3, the lower link 51c and the upper link 51b are connected to the connecting portion 51e1 (aerial midpoint Oeb) of the upper link 51b with respect to the lever 51e and the link pin by a tensile force from the opening / closing spring 51a acting on the link pin 51d. The lower link axis connecting the center point of 51d is stretched so as to form a substantially straight line, and the cross bar 12 receives the rotational force in the clockwise direction of FIG. Is pressed against.

  When an overcurrent flows in such an ON state, the bimetal portion (not shown) generates heat and deforms and acts on the latch 51g, and the latching portion 51fg between the latch 51g and the latch 51f is unlocked, The lever 51e is removed from the latch 51f, the link pin 51d, which is the elbow of the link mechanism, is displaced downward, the crossbar 12 is rotated, and the movable contact 13 is pulled off from the fixed contact 9.

  In the above circuit breaker, the on, off, and trip operations are the same as those of the conventional circuit breaker, and the respective states are as shown in FIGS.

  Further, when the fixed contact 8 and the movable contact 11 are welded and a trip operation is performed, the upper link 51b is positioned upward from the positions at the time of normal opening / closing and trip, as shown in FIG.

  Even if a trip operation is performed in a state where the fixed contact 8 and the movable contact 11 are welded, the handle arm 15 and the handle 4 are maintained in the ON position by the isolation function, and are in a position as shown in FIG. The position of the upper link 51b at this time is located above the normal opening / closing and trip position.

  When the handle 4 is driven between the on position and the off position in the state where the position of the upper link 51b is normally opened and closed and is located above the trip position, as shown in FIG. Since the handle 4 and the upper link 51b are in contact with each other, and the handle is generally made of synthetic resin and the upper link 51b is made of metal, unnecessary damage or deformation may occur on the handle 4.

  Further, since the lever 51e and the upper link 51b are connected not by a pin but by an arc portion of the upper link 51b and a burring portion of the lever 51e, the handle is damaged or deformed by the contact between the handle and the upper link. Then, the upper link is caught by the handle, and if the handle is moved in this state, the connection between the upper link and the lever may be disconnected, and the circuit breaker may become inoperable.

  According to the first embodiment, when the handle 4 is to be driven between the on position and the off position as in the state of FIG. 9, the bent portion 15 a that is a contact portion provided on the handle arm 15. And the upper contact portion 51b1 of the upper link 51b are brought into contact before the handle 4 and the upper link 51b come into contact with each other, and the position of the upper link 51b is sufficiently pushed down. Can be avoided. Therefore, the handle 4 is not damaged or deformed, and the connection between the upper link 51b and the lever 51e is not released, and the circuit breaker is not disabled.

According to the present embodiment, when a contact operation is performed and a trip operation (operation) is performed (this is a condition unique to the present embodiment), an opening / closing operation (moving the handle between the open position and the closed position) is performed. Further, it is possible to suppress the deformation of the handle and the disconnection of the upper link (the connection between the upper link and the lever is disconnected and the circuit breaker becomes inoperable).
In other words, according to the present embodiment, when the opening / closing operation (moving the handle between the open position and the closed position) is performed at the time of contact welding and the trip operation (operation), the handle is deformed and the upper link is disengaged ( In order to improve the situation that the upper link and lever are disconnected and the circuit breaker becomes inoperable), handle arm and upper link protrusions are provided to avoid contact in places where they do not want to contact. Thus, the projecting portion is brought into contact first, thereby avoiding contact at a desired location.

  Since the handle arm 15 and the upper link 51b are not located on the same plane perpendicular to the center line of the link pin 51d, the contact portion 15a of the handle arm 15 and the contact portion of the upper link 51b The contact portion 15a of the handle arm 15 is formed by bending by bending a part of the handle arm 15 in a direction parallel to the center line of the link pin 51d so that 51b1 contacts.

  In the example of FIG. 9, by providing a protrusion 51b1 on the upper side of the upper link 51b as shown in FIG. 10, the bent portion 15a provided on the handle arm 15 and the protrusion 51b1 on the upper side of the upper link 51b are connected to the handle. 4 and the upper link 51b are brought into contact before contact. That is, when the handle arm 15 and the upper link 51b face each other when the handle 4 is moved to the open position with the movable contact 11 and the fixed contact 8 welded, the handle 4 and the upper link 51b Contact portions 15a and 51b1 that abut each other before contact with each other and prevent the handle 4 from coming into contact with the upper link 51b. The contact portion 15a of the handle arm is formed integrally with the handle arm 15, and the upper link The abutment portion 51b1 is formed integrally with the upper link 51b.

Embodiment 2. FIG.

  In the second embodiment, in order to adopt the above-described configuration, a protruding portion (contact portion) 15b may be provided on the bent portion 15a provided on the handle arm 15 as shown in FIG.

  In order to adopt the above-described configuration, as shown in FIGS. 10 and 11, the protrusion 51 b 1 may be provided on the upper side of the upper link 51 b, and the protrusion 15 b may be provided on the bent portion 15 a provided on the handle arm 15.

In the present invention, the embodiments can be appropriately combined, modified, and omitted within the scope of the invention.
In addition, in each figure, the same code | symbol shows the same or an equivalent part.

1 cover, 2 middle base, 2a side plate,
3 base, 3a recess, 4 handle,
5 Power supply side terminal, 6 Load side terminal, 7 Yoke,
8 fixed contact, 9 fixed contact, 11 movable contact,
12 crossbar, 12a crossbar pin, 13 movable contact,
14 fixed frame, 15 handle arm,
15a Bending part of the handle arm,
15b Projection provided on the handle arm, 51a Opening / closing spring,
51b upper link, 51b1 upper link contact portion (protrusion),
51c lower link, 51d link pin, 51e lever,
51e1 connecting part, 51f latch, 51fg locking part,
51g latch, Oeb aerial midpoint, 101 circuit breaker

Claims (5)

A handle arm pivotally supported by a fixed portion and operated by a handle, and has an upper link and a lower link that are pivotally connected to each other, and an open / close spring is stretched between the connecting portion and the handle arm. A toggle link mechanism that is mounted, a crossbar that is connected to the lower link by a crossbar pin and is rotated by the operation of the toggle link mechanism, a movable contact at one end, and a pivot that is movable at the other end to the crossbar. In a circuit breaker including a movable contact that is supported and interlocked with the rotation of the crossbar, and a fixed contact that has a fixed contact that contacts and separates from the movable contact,
When the handle arm and the upper link face each other, the handle and the upper link come into contact with each other when the handle is moved to the open position in a state where the movable contact and the fixed contact are welded. An abutting portion that abuts against each other before the handle prevents the handle from contacting the upper link;
The circuit breaker according to claim 1, wherein the contact portion of the handle arm is formed integrally with the handle arm, and the contact portion of the upper link is formed integrally with the upper link.   2. The circuit breaker according to claim 1, wherein the contact portion of the handle arm is formed without partially protruding, and the contact portion of the upper link is formed partially protruding. Circuit breaker to do.   The circuit breaker according to claim 1, wherein the contact portion of the handle arm is formed so as to partially protrude, and the contact portion of the upper link is formed so as not to protrude partially. Circuit breaker to do.   2. The circuit breaker according to claim 1, wherein the contact portion of the handle arm and the contact portion of the upper link are formed so as to partially protrude.   5. The circuit breaker according to claim 1, wherein at least one of the contact portion of the handle arm and the contact portion of the upper link is formed by bending. Circuit breaker.

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