JP3497866B2 - Circuit breaker - Google Patents

Description

TECHNICAL FIELD The present invention relates to a circuit breaker, and more particularly to a circuit breaker suitable for electric power.

BACKGROUND ART As a conventional circuit breaker, a breaking spring, a trip lever that is rotatably supported and that is rotated by receiving a driving force of the breaking spring, and the trip lever are engaged and held in a closed state of the breaker. A holding lever, a trigger lever that engages and holds the holding lever when the circuit breaker is closed, and a trigger lever that disengages the holding lever to release the engagement between the trip lever and the holding lever during the breaking operation. An electromagnet that works like
2. Description of the Related Art A circuit breaker having a force applying means and the like for increasing a force applied to a trigger lever during a breaking operation is known. For example, there is one disclosed in JP-A-9-82181.

This circuit breaker holds the driving force of the breaking spring with a multistage lever such as a tripping lever, a holding lever, and a trigger lever in the closed state, and when the breaking operation starts, the moment of force from the electromagnet and the force application piston It is intended to shorten the disengagement time of the engagement between the trigger lever and the holding lever by exerting the moment of force from.

However, the conventional circuit breaker is not related to shortening the release time in the engagement between the holding lever and the trip lever, which requires the shortest release time, and is not sufficient for increasing the speed of the entire circuit breaker. is there.

An object of the present invention is to provide a circuit breaker capable of speeding up the breaking operation of the entire circuit breaker by shortening the disengagement time between the holding lever and the trip lever. Also,
Another object of the present invention is to provide a circuit breaker that is small in size and inexpensive while achieving high speed operation.

DISCLOSURE OF THE INVENTION The present invention relates to a breaking spring, a trip lever that is rotatably supported and that is rotated by receiving a driving force of the breaking spring, and a trip lever that is rotatably supported and that has a tripping lever. A circuit breaker having a holding lever that is engaged and held in a closed state and an electromagnet that operates so as to release the engagement between the trip lever and the holding lever at the time of a breaking operation, the holding lever and the pulling lever at the time of a breaking operation. An acceleration spring for applying a force to the holding lever is provided in a direction in which the engagement with the release lever is released.

Also, in the present invention, in the circuit breaker described above, the direction of the pressure applied to the portion of the trip lever held by the holding lever that engages with the holding lever is substantially the center of rotation of the holding lever, Further, the holding lever is formed in a substantially L shape, the central portion thereof is rotatably supported, the trip lever is engaged with one end of the holding lever, and the acceleration spring is formed of a compression coil spring. In addition, the acceleration spring is arranged inside the tip of the other side of the holding lever, and further, the acceleration spring is formed of a compression coil spring, and a plate is attached to the side abutting the holding lever to accelerate the acceleration. The spring operating mechanism includes an accelerating spring lever rotatably supported and a rod connecting the accelerating spring lever to the plate through the accelerating spring.

Further, in the circuit breaker according to the present invention, the acceleration spring is formed of a compression coil spring, and a plate is attached to a side that abuts against the holding lever, and an acceleration spring lever rotatably supported is provided as an acceleration spring operating mechanism. And a rod connecting the acceleration spring lever to the plate through the acceleration spring.

With the circuit breaker described above, the disengagement time between the holding lever and the trip lever can be shortened, the speed of the circuit breaker operation can be increased, and a small and inexpensive circuit breaker can be obtained. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a closed state of an open circuit control unit of a circuit breaker according to the present invention. FIG. 2 is a block diagram of the operating device for the tripping lever of the circuit breaker according to the present invention when the breaking operation is started. FIG. 3 is a configuration diagram showing a closed state of the circuit breaker of the present invention. Fourth
The figure is a block diagram of the circuit breaker of the present invention during a breaking operation.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to FIGS. 1 to 4.

The main contact 1 of the breaking portion is closed as shown in FIG. 3 in the closed state, and is opened as shown in FIG. 4 in the closed state. The cut-off spring 2 is formed of a coil spring and is always biased in the direction of arrow F in the stored state. Shut-off spring 2
Driving force F is transmitted to the link 7 via a driving mechanism such as the lever 3, the links 4, 5, and the lever 6. Link 7 is
A force E is applied in the pulling direction of the driving force in the closed state. One end of the trip lever 8 is rotatably supported by a pin 9, and a rotational moment D is given by a link 7. The holding lever 11 is formed in a substantially L shape, the central portion is rotatably supported by the pin 13, and the upper end portion thereof receives the contact load from the roller 10 of the trip lever 8 in the closed state and is substantially at the center of the pin 13. The roller 10 is engaged so that a directional force is applied. The direction of this contact load is preferably within the range of the shaft diameter of the pin 13. Holding lever return spring 14
Always comes into contact with the lower surface of the horizontal portion of the holding lever 11 and operates so as to always elastically urge the holding lever 11 counterclockwise to return it to the closed state. An acceleration spring 15, which uses a compression coil spring as an elastic biasing member, is arranged to face the upper surface of the horizontal portion of the holding lever 11. The spring force of the acceleration spring 15 is set to be larger than the spring force of the holding lever return spring 14. A plate 16 for pressing the holding lever 11 is attached to one end of the acceleration spring 15 on the holding lever 11 side. Plate 16
It is connected to the acceleration spring lever 18 via a rod 17.
The rod 17 penetrates through the acceleration spring 15. One end of the acceleration spring lever 18 is rotatably supported by a pin 19, and the other end of the acceleration spring lever 18 is engaged with the roller 32 of the reset lever 31. One end of the reset lever 31 is rotatably supported by the pin 33, the other end is locked by the trip hook 20 in the closed state, and the roller 32 is engaged with the notch surface of the reset cam 35 during the breaking operation. It has become. The trip hook 20 has a center portion rotatably supported by a pin 21, one end portion engaged with the reset lever 31 in a closed state, and the other end portion facing the plunger 23a of the electromagnet 23. The electromagnet 23 is attached to the housing 51, and the plunger 23a thereof penetrates the housing 51 and extends to the upper surface of the other end of the trip hook 20.

Next, the operation of the circuit breaker will be described. In the closed state shown in FIGS. 1 and 3, when a cutoff command is input, the electromagnet 23 is excited and the plunger 23a projects downward and presses the upper surface of the other end of the trip hook 20. This causes the trip hook 20 to rotate in the direction of arrow A,
The engagement between the engagement portion 20a and the reset lever 31 is released.
When the engagement between the trip hook 20 and the reset lever 31 is released, the reset lever 31 rotates counterclockwise due to the contact load of the acceleration spring lever 18, and the roller 32 causes the reset cam to rotate.
Rotate until it abuts the notch 35. Acceleration spring lever 18
Becomes a state in which it can freely rotate in the direction of arrow B around the pin 19. As a result, the acceleration spring 15 releases the energy storage state and presses the upper surface of the horizontal portion of the holding lever 11 via the plate 16. Since the spring force of the acceleration spring 15 is set to be larger than the spring force of the holding lever return spring 14, the spring force of the holding lever return spring 14 is overcome and the holding lever 11
Is rotated about pin 13 in the direction of arrow C. By rotating the holding lever 11, the holding lever 11 and the roller 10
Is disengaged, the tripping lever 8 is rotated about the pin 9 in the direction of arrow D by the driving force of the blocking spring 2, and the link 7 is moved in the direction of arrow E. In this way, the drive mechanism shifts from the state shown in FIG. 3 to the state shown in FIG. That is,
The breaking spring 2 starts releasing in the direction of arrow F, and the breaking part main contact 1 opens. After that, by rotating the reset cam 35 in the clockwise direction, the state shown in FIG. 1 can be restored.

According to such a circuit breaker, the spring force of the acceleration spring 15 stored in the circuit breaker is applied to the holding lever 1, so that the disengagement time between the holding lever 11 and the roller 10 can be shortened. . As a result, it is possible to speed up the breaking operation of the circuit breaker as a whole.

Further, since the direction of the contact load acting from the roller 10 of the tripping lever 8 to the holding lever 11 is set to be substantially the rotation center direction of the holding lever 11, no rotational force acts from the roller 10 to the holding lever 11 in the insertion and holding state. . As a result, the holding lever 11 can be downsized.

Further, the holding lever 11 is formed in a substantially L shape, the central portion thereof is rotatably supported, the trip lever 8 is engaged with one end of the holding lever 11, and the acceleration spring 15 is a compression coil spring. Since the acceleration spring 15 is formed inside the other end of the holding lever 11, the acceleration spring 15 can be stored in the extra space formed by the holding lever 11, and the circuit breaker can be downsized. Can be achieved.

Moreover, the acceleration spring operating mechanism includes an acceleration spring lever 18 rotatably supported on one side and held on the other side, and a rod 17 connecting the central portion of the acceleration spring lever 18 to the plate 16 for acceleration. Since the spring 15 is held, the acceleration spring 15 is held by the lever principle of the acceleration spring lever 18 and can be held with a small force. Further, as an acceleration spring operating mechanism, a reset lever 31 rotatably supported and engaging with the acceleration spring lever 18 is used.
And the tripping hook 20 that holds the reset lever 31 at a position farther from the engaging portion of the acceleration spring lever 18 and the closing state is released by the electromagnet 23, so that the tripping hook 20 resets by the lever principle. The force that locks the lever 31 may be small, and the required electromagnetic force of the electromagnet 23 can be reduced. With these, the acceleration spring operating mechanism can be made inexpensive.

As described above, according to the present invention, the disengagement time between the holding lever and the trip lever can be shortened, the breaking operation of the circuit breaker as a whole can be speeded up, and the compact and inexpensive breaking operation can be achieved. You can get a vessel.

It should be noted that the present invention can be implemented in various other forms without departing from the spirit or main characteristics thereof. As such, the preferred embodiments described herein are illustrative and not limiting. The scope of the invention is indicated by the claims, and all variations that come within the meaning of the claims are included in the scope of the invention.

─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-9-180593 (JP, A) JP-A-4-206118 (JP, A) Actual exploitation Sho-57-41212 (JP, U) Actual exploitation 4- 8220 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) H01H 33/42 H01H 33/40

Claims (7)

(57) [Claims] 1. A breaking spring, a trip lever that is rotatably supported and is rotated by receiving a driving force of the breaking spring, and a trip lever that is rotatably supported and is in a closed state of a circuit breaker. In a circuit breaker having a holding lever that is engaged and held by means of, and an electromagnet that operates so as to release the engagement between the trip lever and the holding lever during the breaking operation, the holding lever and the trip lever during the breaking operation. A circuit breaker provided with an acceleration spring for applying a force to the holding lever in a direction in which the engagement with is released. 2. The pressing force applied to a portion of the tripping lever held by the holding lever that engages with the holding lever is set substantially in the direction of the rotation center of the holding lever. Circuit breaker. 3. The holding lever is formed in a substantially L shape, the central portion thereof is rotatably supported, the trip lever is engaged with one end of the holding lever, and the acceleration spring is compressed by a compression coil. 2. The circuit breaker according to claim 1, wherein the breaker is formed of a spring and the acceleration spring is arranged inside the other end of the holding lever. 4. An acceleration spring lever which is rotatably supported as an acceleration spring operating mechanism, wherein the acceleration spring is formed of a compression coil spring, and a plate is attached to the side abutting against the holding lever. The circuit breaker according to claim 1, further comprising: a rod connected to the plate through the acceleration spring. 5. An acceleration spring actuating mechanism, an acceleration spring lever rotatably supported, a rod connecting the acceleration spring lever to the plate, and a rod rotatably supported and engaging the acceleration spring lever. Reset lever,
With a reset cam that returns this reset lever to the closed state,
The circuit breaker according to claim 1, further comprising: a trip hook that holds the reset lever in a closed state and that is released by the electromagnet. 6. The holding lever is rotatably supported by a pin, and the direction of the pressure applied to the engaging portion of the holding lever of the tripping lever is within the range of the shaft diameter of the pin. Circuit breaker described in 2. 7. A breaking portion main contact, a breaking spring, and a drive mechanism which is driven by the breaking spring to drive the breaking portion main contact and a trip lever, and is rotatably supported and rotated by the driving mechanism. And a holding lever that is rotatably supported and that engages and holds the trip lever in the closed state of the circuit breaker, and a holding lever return spring that applies force to return the holding lever to the closed state. And a circuit breaker having an electromagnet that operates so as to release the engagement between the trip lever and the holding lever during the breaking operation, in the direction in which the engagement between the holding lever and the trip lever is released. An accelerating spring that applies force to the holding lever is provided, and an accelerating spring operating mechanism that holds or releases the accelerating spring in a stored state is provided. A lever, a rod connecting the acceleration spring lever to the plate, a reset lever rotatably supported and engaging the acceleration spring lever, a reset cam for returning the reset lever to a closed state, and the reset lever And a tripping hook that is held in the closed state by the electromagnet to release the closed state, and an acceleration spring operating mechanism that holds or releases the acceleration spring in the stored state is provided.