JP2545600Y2 - Undervoltage trip device for circuit breakers - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Purpose of the Invention] (Industrial application field) The present invention relates to an undervoltage trip device of a circuit breaker that cuts off a circuit when a circuit voltage falls below a reference value.

(Prior Art) As a conventional undervoltage trip device for a circuit breaker, those shown in FIGS. 4 to 6 are considered. 4th
FIG. 5 is a sectional view showing a case where the circuit voltage is higher than the reference value, FIG. 5 is a sectional view showing a case where the circuit voltage is lower than the reference value, and FIG.
The figure is a sectional view showing a state where the latch is returned to the set position by the trip bar. In each figure, 1 is a machine frame 2
3 is a plunger that moves in the electromagnet 1, 4 is an arm of a frame 6 of the electromagnet 1 via a pin 5
A latch rotatably supported by 6a has a notch-shaped engaging portion 4a fitted at one end of the latch at the one end of the plunger 3, and the roller 8 rotates via a pin 7 at the other end. Supported as possible. Reference numeral 9 denotes an operating lever whose intermediate portion is rotatably supported by an arm 6b provided on the frame 6 via a pin 10. Reference numeral 11 denotes a lever spring for urging the operating lever 9 to rotate in the direction of arrow A. In this state, one end of the operating lever 9 is engaged with the roller 8 by the urging force of the lever spring 11 in the state shown in FIG. A trip bar 12 provided in a main body case (not shown) is located close to the other end of the operation lever 9. Reference numeral 13 denotes a reset lever rotatably supported by the arm 6a of the frame 6 via the pin 5, and a pin 14 provided at an intermediate portion of the reset lever is inserted into an elongated hole 9a provided in the operation lever 9. ing. In the vicinity of the base end of the reset lever 13, a projection 13a that can contact the latch 4 is provided.

In this configuration, a circuit voltage is applied to the electromagnet 1, and when the circuit voltage is equal to or higher than the reference value, the plunger 3 is attracted by the electromagnet 1 to assume a state shown in FIG. Power lever 9 and roller 8
The rotational power in the direction of arrow B given to the latch 4 via
By controlling the rotation of the latch 4 by receiving the plunger 3 attracted by the electromagnet 1, the operating lever 9 is maintained in the state shown in FIG.

On the other hand, when the circuit voltage falls below the reference value, the electromagnet 1
Is reduced, the latch 4 is rotated in the direction of arrow B by the urging force of the lever spring 11, and one end of the operating lever 9 is
As shown in FIG. 5, the operating lever 9 is rotated in the direction of arrow A by the urging force of the lever spring 11, and the trip bar 12 is moved in the direction of arrow A at the other end. The main body trips.

When the trip operation is performed in this manner, the trip bar is operated by the link mechanism of the circuit breaker body (not shown).
The push lever 12 is further pushed from the trip position in FIG. 5 in the direction of arrow A, whereby the reset lever 13 is pivotally displaced about the pin 5 in the direction of arrow C as shown in FIG. It is moved to a position where it can be adsorbed to 1. Then, the convex portion 13a comes into contact with the latch 4 and causes the latch 4 to return and rotate in the direction indicated by the arrow B. Therefore, if the handle of the circuit breaker main body is turned on by operating the circuit voltage at or above the reference value in this state, the electromagnet 1 is energized, the plunger 3 is attracted, and the trip bar 12 is moved in the direction indicated by the arrow A.
The operation lever 9 is returned to the original state shown in FIG.

(Challenge invention is to solve) those of the conventional configuration, the trip bar 12 to become the state of FIG. 5 is a stroke L ₁ moves in the direction of the arrow A from the state of FIG. 4 by the actuating lever 9 Is tripped, and from this state, a further stroke L _{2 in the} direction of arrow A is performed.
It is reset by being moved to the state shown in FIG.
When the operating lever 9 is turned in the direction of arrow A because the connection 13 is connected by the pin 14, the reset lever 13 is turned in the direction opposite to the direction of arrow C. Easy to occur. If you increase the stroke L ₁ of the trip bar 12 in consideration of this point, the trip bar 12 together there is a fear that a state can not be trip hit the reset lever 13 before being tripped, it can be tentatively trip in this case even, because becomes possible partial stroke L ₂ with a larger stroke L ₁ is reduced, even possible trip surely will not be able to return to the reset state. Therefore, it is necessary to select a proper value in a very narrow range in relation to the variation in the movement of the actuating lever 9 the setting of the stroke L ₁ and L _2, the setting is very difficult, As a result, there was a drawback that the operation reliability was low.

Accordingly, it is an object of the present invention to provide an undervoltage trip device for a circuit breaker, which can easily set a stroke for performing a trip operation and a reset operation, thereby having excellent operation reliability. .

[Means for Solving the Problems] The present invention provides an electromagnet to which a circuit voltage is applied. When the circuit voltage is equal to or higher than a reference voltage, the electromagnet is held in an attracted state and the circuit voltage is set to a reference value. Is provided, a plunger for releasing the holding is provided, and an operating lever is provided on the frame so as to reciprocate between a standby position and an operating position, and a lever for urging the operating lever toward the operating position is provided. A spring, an intermediate portion rotatably provided on the frame, one end having an engagement portion for engaging the plunger, and the other end of the operating lever holding the plunger in a suction state. A latch having an engagement portion that engages one end of the lever and restricts the operating lever to a standby position against the lever spring, and the latch is set by releasing the plunger from the electromagnet. When the operating lever is allowed to rotate in one direction from the position, the operating lever is disengaged from the engaging portion of the latch by the urging force of the lever spring, and the operating lever rotates from the standby position to the operating position. A trip can is provided for shifting the circuit breaker body to a cut-off state by being moved to a trip position based on an operation, and a reset lever is provided on the frame so as to be able to rotate in conjunction with the movement of the plunger. A trip bar for moving the plunger again to a position where it can be attracted to the electromagnet by rotating the reset lever in one direction by moving the circuit breaker body into an interrupted state; Connecting the lever and the operating lever to each other and returning the operating lever against the lever spring when the reset lever is rotated in one direction It is characterized in that a cooperation mechanism for rotating is provided.

(Operation) According to the above-described means, when the holding of the plunger is released due to a decrease in the attraction force of the electromagnet due to a shortage of the circuit voltage, the latch rotates in one direction by the urging force of the lever spring, and The trip can is moved to the trip position in accordance with the operation of rotating the operation lever to the operation position, so that the circuit breaker body is shifted to the cutoff state. When the trip bar moves and the reset lever is rotated in one direction with the operation of the circuit breaker body shifting to the cutoff state,
The operating lever connected via the cooperation mechanism is returned to a position where it can engage with the latch against the lever spring.
In this case, the circuit breaker body is tripped by the trip can and trips the circuit breaker body, and the trip bar performs only the operation of rotating the reset lever. Therefore, both the trip operation and the reset operation of the circuit breaker body are performed. The stroke setting for performing the trip operation and the reset operation can be easily performed as compared with the conventionally thought of using a trip bar, and therefore, the reliability is excellent.

(Embodiment) An embodiment of the present invention will be described below with reference to FIGS.

Reference numeral 21 denotes an electromagnet fixed to a machine frame 22 of a circuit breaker body (not shown) by screwing, and a yoke (frame) of the electromagnet.
23, a stator core 24 is provided, and a coil 25 is provided so as to cover the periphery of the stator core 24.
A plunger 26 is slidably provided on the inner periphery of the plunger. Reference numeral 27 denotes a latch rotatably supported by an arm 23a provided on a yoke (frame) 23 via a pin 28. One end of the latch is fitted into a rod-shaped engaging groove 26a at the tip of a plunger 26. A roller 30 is rotatably supported at the other end via a pin 29. 31 is an arm having an intermediate portion provided on a yoke (frame) 23 via a pin 32
A substantially linear actuating lever rotatably supported by 23b.
3 has one end hung on the arm 23b so as to urge the operating lever 31 to rotate in the direction of the arrow A, and the other end has the operating lever 31.
One end of the operating lever 31 is driven by the biasing force of the lever spring 33 in the state shown in FIG.
Reference numeral 30 indicates an engaged state. And this operating lever 31
The arm portion 34a of the trip can 34 provided on the circuit breaker body (not shown) is positioned adjacent to the other end portion 31b of the circuit breaker body with an interval L3. Reference numeral 35 denotes a reset lever rotatably supported by the arm 23a via a pin 28, and a pin 36 serving as a cooperative mechanism disposed at an intermediate portion of the reset lever is inserted into a long hole 31a provided in the operation lever 31. Have been. In the vicinity of the base end of the reset lever 35, a projection 35a that can abut on the receiving portion 27b of the latch 27 is provided. Reference numeral 37 denotes a trip bar which is displaced in conjunction with the movement of a link mechanism provided on the circuit breaker main body. This trip bar is provided with a predetermined lever from a reset lever 35 as shown in FIG. There is an interval L4.

Next, the operation of the above configuration will be described. When the circuit breaker body is turned on, a circuit voltage is applied to the electromagnet 21. When the circuit voltage is equal to or higher than the reference value, the plunger 26 is attracted to the stator core 24 of the electromagnet 21 and FIG. In this state, the plunger 26 attracted by the electromagnet 21 receives the rotational force in the direction of arrow B given to the latch 27 via the operating lever 31 and the roller 30 by the urging force of the lever spring 33, and By restricting the rotation of the latch 27, the operating lever 31 is held in the state shown in FIG. 1. In this state, the other end 31b of the operating lever 31
It is close to the fourth arm 34a.

On the other hand, when the circuit voltage falls below the reference value, the electromagnet 21
Is reduced, and the holding force of the plunger 26 is reduced, so that the latch 27 can be rotated and displaced in the direction of arrow B. The latch 27 is moved in the direction of arrow B by the urging force of the lever spring 33. And one end of the operating lever 31 is
From the lever spring 33.
2, the other end 31b contacts the trip can 34 and displaces the trip can 34 in the direction of arrow D as shown in FIG. Then, the circuit breaker main body is tripped by the displacement of the trip can 34 to be turned off. When the operating lever 31 is displaced in the direction of arrow A in this manner, the operating lever 31
The reset lever 35 associated with the pin 31 via the pin 36 is displaced in the direction indicated by the arrow C, and the reset lever 35 approaches the trip bar 37.

On the other hand, when the trip operation is performed in this manner, the trip bar 37 is operated by the operation of the link mechanism of the circuit breaker body (not shown).
Is moved in the direction of arrow E from the position shown in FIG. 1, whereby the reset lever 35 is pivotally displaced about the pin 28 in the direction of arrow C as shown in FIG. It is moved to a position where it can be adsorbed. The rotation of the reset lever 35 causes the pin 36 and the elongated hole 31 to rotate.
As shown in FIG. 3, the operating lever 31 cooperated with a is turned in the direction opposite to the arrow A. At the same time, the convex portion 35a comes into contact with the receiving portion 27b of the latch 27 to return the latch 27 to return rotation in the direction indicated by the arrow B. Therefore, in this state, if the handle of the circuit breaker body is turned on when the circuit voltage becomes equal to or higher than the reference value, the coil of the electromagnet 21 is turned on.
25, the plunger 26 is sucked, the trip bar 37 moves in the direction opposite to the arrow E, and the operating lever 31 is moved to the first position.
The original state shown in FIG.

In the embodiment described above, if the mounting position of the electromagnet 21 is adjusted by sliding the electromagnet 21 with respect to the machine frame 22, the positional relationship of the reset lever 35 with respect to the trip bar 37 can be adjusted. The trip bar is tripped on a trip can 34 separate from 37.
Since 37 performs only the operation of rotating the reset lever 35, the trip operation and the reset operation are each performed by separate components, and the adjustment causes the other end 31b of the operation lever 31 and the arm 34a of the trip can 34 to move. Is not changed, the position of the electromagnet 21 can be easily set with respect to the trip can 34 and the trip bar 37.

As described above, in the present embodiment, the trip lever 34 provided separately from the trip bar 37 is moved to the trip position by the operating lever 31, and the reset lever 35 is moved by the trip bar 37 to move the plunger 26 to the stator of the electromagnet 21. Since it is pivotally displaced to the position where it is attracted to the iron core 24, the operating lever
The stroke of 31 and the stroke of the trip bar 37 are irrelevant and have no influence on each other, and therefore, it is possible to easily set the stroke for performing the trip operation and the reset operation as compared with the conventional one, Operation reliability can be greatly improved.

[Effects of the Invention] As is clear from the above description, the present invention makes it possible for the latch to be released by the biasing force of the lever spring when the plunger is released from holding due to a decrease in the attracting force of the electromagnet due to insufficient circuit voltage. The circuit breaker body is shifted to the cut-off state by the trip can being moved to the trip position with the operation of turning the operating lever to the operating position, and the circuit breaker body is turned off. When the reset bar is rotated in one direction due to the movement of the trip bar in accordance with the operation of shifting to, the operating lever is returned to the original position against the lever spring, and in this case, In addition, the circuit breaker body is tripped by tripcan, and the trip bar performs only the operation of rotating the reset lever.
The stroke setting for performing the trip operation and the reset operation can be easily performed as compared with the conventionally considered one in which both the trip operation and the reset operation of the circuit breaker body are performed by the trip bar. It has a practical effect of being excellent.

[Brief description of the drawings]

1 to 3 show one embodiment of the present invention, and are sectional views showing different operation states, respectively, and FIGS. 4 to 6 show conventional structures and cross sections showing different operation states, respectively. FIG. In the drawing, 21 is an electromagnet, 23 is a yoke (frame), 26 is a plunger, 27 is a latch, 31 is an operating lever, 34 is a trip can, 35 is a reset lever, 36 is a pin (cooperation mechanism), 37
Is a trip bar.

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Shigeru Sugiyama 2121 Naoyo, Asahi-machi, Mie-gun, Mie Prefecture Inside the Mie Plant, Toshiba Corporation (56) References: Japanese Utility Model Sho-49-94138 (JP, U) Japanese Utility Model Sho-57 −98667 (JP, U) Actually open 62-70339 (JP, U)

Claims (1)

(57) [Scope of request for utility model registration] An electromagnet to which a circuit voltage is applied; a plunger that is attracted to and held by the electromagnet when the circuit voltage is equal to or higher than a reference voltage and is released when the circuit voltage falls below a reference value; An operating lever provided to reciprocate between a position and an operating position; a lever spring for biasing the operating lever toward the operating position; and an intermediate portion rotatably provided on the frame. The plunger has an engaging portion at one end and the plunger is attracted and held at the other end. The plunger is engaged with one end of the operating lever to engage the operating lever with the lever spring. A latch having an engagement portion for restricting the plunger to the standby position when the operating lever is at the standby position, the latch is in close proximity to the operating lever with an interval, and the plunger is released from being held by the electromagnet. Accordingly, when the latch is permitted to rotate in one direction from the set position, the operating lever is released from the engaging portion of the latch by the urging force of the lever spring, and the operating lever is moved to the standby position. And a trip can that shifts the circuit breaker body to a cut-off state by being moved to a trip position based on an operation of rotating from the operation position to the operation position, and the frame can rotate in conjunction with the movement of the plunger. The reset lever provided is provided separately from the trip can, and is in a non-contact state with the reset lever when the circuit breaker main body is in a conductive state, and the circuit breaker main body shifts to a cut-off state. The plunger can be attracted to the electromagnet again by moving along with the operation to come into contact with the reset lever and rotate the reset lever in one direction. A trip bar for moving the reset lever and the operating lever to each other, and a cooperative mechanism for returning and rotating the operating lever against the lever spring when the reset lever is rotated in one direction. An undervoltage trip device for a circuit breaker, comprising: