KR960005875Y1 - Circuit breaker on/off device using flat spring - Google Patents

Abstract

No content

Description

Contact switchgear of circuit breaker using leaf spring

1 is a side view of a circuit breaker showing a conventional device.

Figure 2 is a side view for explaining the operation of the conventional device.

3 is a side view of a circuit breaker to which the device of the present invention is applied.

4 is a perspective view of portion A of FIG.

5 is an enlarged view of a portion B of FIG.

* Explanation of symbols for main parts of the drawings

3: movable contact 5: cam

6: insulated rod 6a: long hole

7: lever 8: pin

9: link bar 10: axis

11: leaf spring 12: support

13: pin 14: roller

The present invention relates to a circuit breaker, and more particularly, to a contact opening and closing device using a leaf spring configured to reduce the appearance of the device by applying a leaf spring and to give a large pressing force to the contact.

In addition to circuit breakers, magnetic contactors, various electric switches, switchgears, etc., electrical contacts are provided for connecting or disconnecting electric lines.

In addition, the electrical contact generates an arc during the opening and closing operation, and if the arc generation is severe, the devices are damaged and the contact wears, causing a failure, so that the contact point of the electrical equipment is installed arc extinguishing device.

1 and 2 show the structure of a conventional device that has been applied to a circuit breaker.

The contacts 2 and 3 are provided in the vacuum valve 1, and the contacts are connected to or separated from each other while being moved by a plurality of links and levers driven by a cam.

2 is a configuration diagram showing a contact drive mechanism, wherein the contact is composed of a fixed contact point 2 and a movable contact point 3, and a motor (not shown) serving as a driving source and a cam 5 rotated by a driving force of the motor. Is installed in the operating mechanism part 4.

The connecting portion of the link bars 21 and 22 is connected to the cam 5, and the first lever 23 is connected to the link bar 22 so that the first lever 23 is connected to the pin (according to the rotational movement of the cam). Rotate around 24).

A link 25 is fixed to the first lever 23 and a spring 26 is installed on the link, and a rotational movement about the shaft 29 is provided between the movable contact table 27 and the link 25. The second lever 28 is connected.

In addition, a protrusion is formed at one side of the second lever 28, and the protrusion is inserted into a long hole 25a formed in the link 25. The other side of the second lever 28 is a movable contact table 27 and a pin. Connected to (30).

Accordingly, when the cam 5 is rotated counterclockwise in the drawing as shown in FIG. 2 and the large radius portion of the cam 5 is connected to the connection portion of the link bars 21 and 22, the first lever 23 is rotated. The pin 25 is rotated clockwise in the drawing so that the link 25 is lifted upward, and the second lever 28 is rotated clockwise about the axis 29 to move the movable contact table ( The movable contact 3 is connected to the stationary contact 2 because the 27 and the movable contact 3 move downward.

At this time, the pin formed on one side of the second lever 28 is located at the top dead center of the long hole (25a) formed in the link (25).

In the above state, when the cam 5 is further rotated so that the maximum radial portion of the cam is connected to the link bars 21 and 22, the link 25 is guided to the long hole 25a and ascended further by a predetermined amount, the spring 26 ) Is compressed, and the force of the compressed spring is transmitted to the movable contact point 3 through the second lever 28 and the movable contact point 27 as it is to act as a pressure, so that each of the contacts 2 and 3 This prevents the generation of arcs due to connection instability.

In addition, when the link bars 21 and 22 are connected to a small radius portion of the cam as the cam 5 rotates, the link 25 is guided to the long hole 25a and lowers as opposed to the above operation. 28) rotates counterclockwise in the drawing about the axis 29, the movable contact and the fixed contact are separated.

However, in the conventional apparatus as described above, the spring 26 and the movable contact 2 are separated on both sides of the shaft 29 of the second link 28 so that the overall volume of the circuit breaker is increased and the coil spring is increased. There is a problem that can not be applied to the large-capacity circuit breaker because there is a limit to the power of.

In addition, the driving force of the cam is transmitted to the movable contact through several links and levers, which increases the number of parts and increases the assembling process. There are many concerns.

The present invention is to provide a simple structure of the contact opening and closing device using a leaf spring, unlike the conventional device using a coil spring to simplify the assembly process and to be easily applied to a large circuit breaker bar. It demonstrates in detail by FIG. 3 thru | or FIG.

3 is a side view showing an example of a circuit breaker to which the device of the present invention is applied. The fixed contact point 2 is provided above the inside of the vacuum valve 1, and the movable contact point 3 is provided below the movable contact point. Insulated rod 6 is fixed below the stand.

The lower side of the insulating rod 6, the lever 7 is coupled to the pin 8 as shown in FIG. 4, the lower hole 6a is formed below,

One end of the leaf spring 11 is fixed to the lever 7, and a pin 13 formed at one end of the support 12 is fitted into the long hole 6a.

In addition, in the space between the other end of the leaf spring 11 and the other end of the support 12, a link bar 9, which rotates about the shaft 10, is fitted and fixed, and as shown in FIG. 5, the link bar ( A roller 14 is coupled to the end of 9), and the roller is connected to a cam 5 provided in the operation mechanism 4.

The operation of the device of the present invention configured as described above will be described.

First, when the roller 14 installed in the link bar 9 is connected to the small radius portion of the cam 5, the fixed contact 2 installed in the vacuum valve 1 and the movable contact 3 are separated as shown in FIG. Will be in a state.

In the above state, when the cam 5 is rotated in the clockwise direction (the arrow direction in FIG. 5) in the drawing and the large radius portion of the cam 5 is connected to the roller 14, the link bar 9 is connected to the shaft 10. Rotation in the clockwise direction on the drawing and the plate spring (11) and the support (12) fixed to one end of the link bar (9) by this rotation force is to move upwards, in which the leaf spring ( 11) the lever 7 is fixed,

Since the lever is connected to the insulating rod 6 by the pin 8, the insulating rod 6 and the movable contact table move upward together with the movement of the leaf spring 11 so that the movable contact 3 has a fixed contact point. Connected.

When the cam 5 is further rotated clockwise while the movable contact 3 and the fixed contact 2 are connected, and the top dead center portion of the cam is connected to the roller 14, the link bar further rotates clockwise. The pressing force is applied to the contact.

That is, when the link bar 9 rotates while the contacts 2 and 3 are connected, the fixed contact is in contact with the movable contact, so that the insulating rod 6 does not move and the pin 13 of the support 12 is moved. It moves upward along the long hole 6a formed in the insulating rod. As the support 12 moves, force is accumulated in the leaf spring 11 and the accumulated force is applied to the insulating rod 6 through the lever 7. It acts to push the movable contact (3) in the direction of the fixed contact (2).

Therefore, the stable contact which does not generate an arc is made.

In addition, when the cam 5 rotates counterclockwise in the drawing by the opposite direction driving force of the motor provided in the operating mechanism part 4, the link bar 9 rotates counterclockwise about the shaft 10 while supporting the support ( The pin 13 of 12) moves downward along the long hole 6a, and the force accumulated in the leaf spring 11 is lost, so that the pressing force does not act on the movable contact 3, and in this state, the link bar When the 9 is further rotated counterclockwise, the lever 7 and the insulating rod 6 move downward, and the movable contact 3 is separated from the stationary contact 2.

As described above, the present invention connects the insulated rod to the movable contact, and the contact is pressed by the simple structure of installing only the link bar, the leaf spring, and the support between the insulated rod and the cam, thereby reducing the number of parts and the assembly process. Is simplified.

In addition, the leaf spring has a small size and strong force, so it is easy to apply to a large-capacity circuit breaker. The contact opening and leaf spring are installed in one direction centering on the axis of the link bar. This has the effect of decreasing the volume of.

Claims (3)

The shaft 10 is rotated in accordance with the rotation of the insulating rod 6 connected to the movable contact 3 provided in the vacuum valve, the lever 7 connected to the insulating rod by the pin 8 and the cam 5 of the operating mechanism. Link bar (9) for the shio-so movement around the plate, and fixed between the link bar and the lever plate spring (11) for cutting the rotational force of the link bar to the insulating rod, and connected between the link bar and the insulating rod The contact opening and closing device of the circuit breaker using a leaf spring is provided with a support 12 for applying a pressing force to the movable contact when the link bar rotates. The method of claim 1, Contact opening and closing device of a circuit breaker using a leaf spring to form a long hole (6a) in the insulating rod (6) and a pin (13) in the support (12) so that the pin is fitted into the long hole. The contact opening and closing device of a circuit breaker using a leaf spring according to claim 1, wherein a roller (14) is provided at a link bar (9) to allow the roller to be connected to a cam.