KR100326725B1 - Breaker - Google Patents

Abstract

The present invention provides a blocking spring, a holding lever that is freely supported while rotating, and a holding lever that is rotated by a driving force of the blocking spring, and a holding lever that freely supports the rotating lever and keeps the blocking lever engaged with the input state of the breaker, and the holding lever. A breaker having a retaining lever return spring that is urged to return to the closed state, and an electromagnet actuated to release engagement of the break lever and the retaining lever during the break operation.

Install an acceleration spring that applies the retaining lever in the direction in which the retaining lever and the shutoff lever are disengaged, install an acceleration spring actuating mechanism for holding or releasing the acceleration spring in an upright condition, Acceleration spring actuating mechanism is installed. As a result, the engagement release time between the holding lever and the blocking lever can be shortened, and the breaking operation of the entire breaker can be speeded up, and at the same time, it can be made compact and inexpensive.

Description

Breaker {BREAKER}

As a conventional circuit breaker, the blocking spring and the rotor are supported freely and at the same time, the retaining lever which is rotated by the driving force of the blocking spring and the retaining lever to hold the blocking lever in the closing state of the breaker, and the holding lever are held in the closing state of the breaker. The trigger lever to be held and the trigger lever during the shut-off operation release the engagement of the holding lever to release the engagement of the shut-off lever and the holding lever, and the force applied to the trigger lever during the shut-off operation is greatly increased. BACKGROUND OF THE INVENTION [0002] A circuit breaker having a force means and the like is known. For example, Japanese Patent Laid-Open No. 9-82181 discloses something.

When the breaker is in the closed state, the driving force of the blocking spring is held by multiple levers such as the blocking lever, the holding lever, and the trigger lever, so that the moment of the force from the electromagnet to the trigger lever and the force from the force piston at the start of the breaking operation. This is to reduce the release time of the engagement between the trigger lever and the holding lever.

However, the conventional circuit breaker is not related to the shortening of the release time in the engagement of the holding lever and the breaking lever, which requires the shortest release time, but is insufficient for the high speed of the whole breaker.

An object of the present invention is to provide a circuit breaker capable of speeding up the breaking operation of the circuit breaker by reducing the engagement release time between the holding lever and the blocking lever. Another object of the present invention is to provide a compact and inexpensive circuit breaker while achieving a high speed.

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

1 is a configuration diagram showing a closing state of the open circuit control unit of the circuit breaker of the present invention;

2 is a block diagram of the start of the blocking operation of the operation device of the break lever of the breaker of the present invention;

3 is a configuration diagram showing an input state of the circuit breaker of the present invention;

4 is a block diagram of the circuit breaker of the present invention during the breaking operation.

The present invention is freely supported by the blocking spring and the rotation, at the same time, the blocking lever rotated by the driving force of the blocking spring, the support lever is freely rotated, and at the same time, the holding lever to keep the blocking lever in the input state of the breaker, and the blocking operation A circuit breaker having an electromagnet operative to release engagement of said blocking lever and said blocking lever with said holding lever, said holding lever being in a direction in which said holding lever and said blocking lever are released in engagement with said holding lever. It is installed with an accelerating spring.

In the above-mentioned circuit breaker, the direction of the pressing force with respect to the part engaged with the holding lever of the blocking lever in the state held by the holding lever is the direction of the rotational lever of the holding lever, and the holding lever is approximately L. It is formed in a shape and supports the center part freely in rotation, and engages the blocking lever with one end of the holding lever to form the acceleration spring as a compression coil spring, and at the inside of the other end of the holding lever. An acceleration spring lever in which the acceleration spring is disposed, and the acceleration spring is formed of a compression coil spring, and a plate is provided on the side that is in contact with the holding lever, and is freely supported as a rotation spring actuating mechanism, and the acceleration spring lever. It is provided with a rod connecting to the plate through the acceleration spring.

The present invention also provides an acceleration spring lever in which the acceleration spring is formed of a compression coil spring, and a plate is provided on the side of the breaker, which is in contact with the holding lever, and is freely supported as an acceleration spring operating mechanism. And a rod connecting the lever to the plate through the acceleration spring.

The above breaker shortens the engagement release time between the holding lever and the breaker lever, speeds up the breaking operation of the breaker as a whole, and at the same time provides a compact and inexpensive breaker.

Embodiments of the present invention will be described below with reference to FIGS. 1 to 4.

The main contact point 1 of the breaker part is closed as shown in FIG. 3 in the closing state, and is open as shown in FIG. 4 in the blocking state. The shutoff spring 2 is formed of a coil spring and is always biased in the direction of the arrow F in an extended state. The driving force F of the blocking spring 2 is transmitted to the link 7 through driving devices such as the lever 3, the links 4 and 5, and the lever 6. The link 7 is given a force E in the tensioning direction of the driving force in the closing holding state. One end of the blocking lever 8 is freely supported by the pin 9, and the rotation moment D is given by the link 7. The retaining lever 11 is formed in an approximately L shape, and the center portion is supported freely by the pin 13, and in the closing state, the upper end portion receives the contact load from the roller 10 of the blocking lever 8 to approximately the pin. It engages with the roller 10 so that the force to the center direction of (13) may be given. The direction of this contact load is preferably within the range of the shaft diameter of the pin 13. The holding lever return spring 14 always comes into contact with the lower surface of the horizontal portion of the holding lever 11 and operates to return the holding lever 11 to the input state by always elastically counterclockwise. The acceleration spring 15 using the compression coil spring as the elastic elastic body is disposed opposite 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 retaining lever return spring 14. At one end of the holding spring 11 side of the acceleration spring 15, a plate 16 for pressing the holding lever 11 is provided. The plate 16 is connected to the acceleration spring lever 18 via the rod 17. The rod 17 penetrates into the acceleration spring 15. One end of the acceleration spring lever 18 is freely supported by the pin 19, and the multistage end thereof is engaged with the roller 32 of the reset lever 31. As shown in FIG. One end of the reset lever 31 is rotatably supported by the pin 33, the other end thereof is stopped by the blocking hook 20 in the closed state, and the reset cam 31 35) to fit into the notch surface. The blocking hook 20 is freely supported by the pin 21 at the center thereof, and one end thereof is engaged with the reset lever 31 in a closed state, and the other end thereof faces the plunger 23a of the electromagnet 23. . The electromagnet 23 is provided in the box body 51, and the plunger 23a extends through the box body 51 to the upper surface of the other end of the blocking hook 20.

Next, the operation of such a circuit breaker will be described. 1 and 3, when the shutoff command is input, the electromagnet 23 is excited and the plunger 23a protrudes downward to press the upper surface of the other end of the shutoff hook 20. In this way, the blocking hook 20 is rotated in the direction of arrow A to release the locking portion 20a of the blocking hook 20 and the reset lever 31. When the locking hook 20 and the reset lever 31 are released, the reset lever 31 is rotated counterclockwise by the contact load of the acceleration spring lever 18 so that the roller 32 resets the reset cam ( Rotate until it comes in contact with the notch face of 35). The acceleration spring lever 18 is in a state capable of freely rotating in the direction of the arrow B about the pin 19. As a result, the acceleration spring 15 is released from the compressed 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 retaining lever return spring 14, the accelerator spring 15 overcomes the spring force of the retaining lever return spring 14 to move the retaining lever 11 to the pin 13. Rotate in the direction of the arrow C. As the holding lever 11 rotates, the engagement of the holding lever 11 and the roller 10 is released, and the blocking lever 8 is driven by the driving force of the blocking spring 2 so that the blocking lever 8 is centered on the pin 9. Direction, the link 7 moves in the direction of the arrow E. FIG. In this way, the drive unit shifts from the state of FIG. 3 to the state of FIG. 4. That is, the blocking spring 2 starts to release in the direction of arrow F, and the main contact point 1 of the blocking part opens. Thereafter, the reset cam 35 can be rotated clockwise to return to the state of FIG. 1.

According to such a circuit breaker, since the spring force of the accelerated acceleration spring 15 is applied to the holding lever 11 during the breaking operation, the engagement release time between the holding lever 11 and the roller 10 can be shortened. Can be. As a result, the breaking operation of the entire breaker can be speeded up.

In addition, since the direction of the contact load acting on the holding lever 11 from the roller 10 of the blocking lever 8 is set to the direction of the center of rotation of the holding lever 11, the holding load is held from the roller 10 in the holding state. No rotational force acts on the lever 11. As a result, the holding lever 11 can be miniaturized.

In addition, the holding lever 11 is formed in an approximately L shape, and the center portion thereof is freely supported, and the blocking spring 8 is engaged with one end of the holding lever 11 so that the acceleration spring 15 is compressed into a compression coil spring. At the same time, since the acceleration spring 15 is disposed inside the other end of the retaining lever 11, the accelerator spring 15 can be stored using the extra space formed by the retaining lever 11. As a result, the circuit breaker can be miniaturized.

In addition, it is provided with an acceleration spring lever 18 which freely supports one side as an acceleration spring actuating mechanism and the other side is held, and a rod 17 which connects the central portion of the acceleration spring lever 18 to the plate 16. Since it is set as the structure which hold | maintains the acceleration spring 15, the acceleration spring 15 is hold | maintained on the principle of the lever of the acceleration spring lever 18, and can be maintained with a small force. In addition, while being freely supported as an acceleration spring operating mechanism, the reset lever 31 and the reset lever 31 which engage the acceleration spring lever 18 are held at a position far from the engaging portion of the acceleration spring lever 18, Since the closing hook 20 is released by the electromagnet 23, the force for stopping the reset lever 31 with the blocking hook 20 may be small according to the principle of the lever. The required electromagnetic force can be reduced. This makes it possible to make the acceleration spring operating mechanism inexpensive.

As described above, according to the present invention, the engagement release time between the holding lever and the blocking lever can be shortened, thereby making it possible to speed up the breaking operation of the entire breaker, and at the same time, a compact and inexpensive breaker can be obtained.

In addition, this invention can be implemented in other various forms, without deviating from the mind or main characteristic. Accordingly, the preferred embodiments described herein are exemplary and not limiting. The scope of the invention is shown by the claims, and all modifications falling within the meaning of the claims are included in the scope of the present invention.

Claims (7)

A blocking spring and a rotation lever supported freely and rotating at the same time as the driving force of the blocking spring; and a holding lever supporting the rotation freely and keeping the blocking lever in the input state of the circuit breaker; A circuit breaker having an electromagnet operative to release engagement of said blocking lever and said holding lever, said acceleration spring for applying said holding lever in a direction in which said holding lever and said blocking lever are released in engagement with said blocking lever. Breaker, characterized in that installed. The method of claim 1, And the direction of the pressing force with respect to the portion engaged with the holding lever of the blocking lever in the state held by the holding lever in the direction of the center of rotation of the holding lever. The method of claim 1, The retaining lever is formed in an approximately L shape, and the center portion thereof is freely supported so as to engage the blocking lever at one end of the retaining lever, and the acceleration spring is formed of a compression coil spring, and the other of the retaining lever The breaker characterized in that the acceleration spring is arranged inside the front end portion. The method of claim 1, The acceleration spring is formed of a compression coil spring, and a plate is provided on the side in contact with the holding lever, and the acceleration spring lever is freely supported as an acceleration spring operating mechanism, and the acceleration spring is mounted on the plate to the acceleration spring. Breaker characterized in that it has a rod connecting through. The method of claim 1, The acceleration spring lever, which is freely supported as the acceleration spring operating mechanism, a rod connecting the acceleration spring lever to the plate, a reset lever that freely supports the rotation and engages the acceleration spring lever, and the reset lever is introduced. And a blocking hook for holding the reset cam returning to a state and holding the reset lever in a closed state and at the same time releasing the closed state by the electromagnet. The method of claim 2, And a support lever freely rotating with a pin, wherein the direction of the pressing force with respect to the engaging portion of the retaining lever of the shutoff lever is within the range of the shaft diameter of the pin. A main block of the main block, a main block of the main block, a driving device that is energized by the main block of the main block, and a main lever of the main block of the main block and the main lever of the main block; And a holding lever for holding and holding the blocking lever in the closing state of the breaker, a holding lever return spring for applying the holding lever to return to the closing state, and the blocking lever and the holding lever during the breaking operation. In a circuit breaker having an electromagnet operative to disengage, Install an acceleration spring for applying the retaining lever in a direction in which the retaining lever and the blocking lever are released, and install an acceleration spring operating mechanism for maintaining or releasing the acceleration spring in an upright state; A freely supported acceleration spring lever, a rod connecting the acceleration spring lever to the plate, a freely supported rotational lever, and a reset lever engaging the acceleration spring lever and a reset lever returning the reset lever to an input state. And a set hook and a retaining hook for holding the reset lever in the closed state and at the same time releasing the closed state by the electromagnet, and installing an acceleration spring actuating mechanism for holding or releasing the accelerated spring in a compact state. Circuit breaker.