KR830000134Y1 - Magnetic extinguishing type switchgear - Google Patents

Abstract

No content.

Description

Magnetic extinguishing type switchgear

1 is a schematic diagram showing an embodiment of the present invention.

2 is an operation characteristic diagram for explaining the operation of the embodiment shown in FIG.

The present invention relates to a magnetic extinguishing type switching device which uses a high pressure fluid for arc extinguishing fluid (high pressure fluid), such as SF ₆ (sulfur fluoride) gas, to be used for arc extinguishing. Conventional switchgear of this type uses the boosting action obtained by giving arc energy to the fluid filled with the arc itself to increase the pressure in the proper volumetric space, thereby causing the arc current to change periodically and the following current value. In the process of decreasing to zero, the arc closing device is opened through the arc space, and is configured to extinguish the arc with the diffusion or cooling force generated therefrom.

In such a magnetic extinguishing type switchgear, it is important to secure a high-pressure fluid source directly or indirectly by a boosting action, and the extinguishing performance greatly depends on the securing means. Among them, the formation of a high voltage source in a short time is the most important and indispensable element for generating extinguishing power, and a problem that must be solved to obtain a high performance device having a short arc time. In general, in the magnetic arc extinguishing type, the high-pressure source is configured to be secured by the heat boosting action of the arc, so that it is necessary to control the arc energy which is the basis of this action in order to obtain the desired boosting action.

In general, arc energy is determined by multiplying the arc current and the arc voltage (current x voltage), but since the double arc current is the current of the circuit, it is extremely difficult to control, and it is practically effective to control the arc voltage.

This arc voltage is approximately related to the arc length and the pressure of the surrounding fluid, and even if any of these increases, the arc voltage tends to increase. The present invention has been made in view of the above, and the purpose of the present invention is to effectively promote the pressure boosting operation in the initial short time of contacting and to obtain a high performance switching device having a short arc time. Another purpose is to control the contact speed of the contactor in two stages to accurately display the boosting performance with a simple structure, and to control unnecessary elongation of the arc by controlling the contactor's departure speed in two stages and decelerating in the late stage. It is to prevent excessive temperature rise of the boosted fluid without excessive arc energy injected into the arc space.

In addition, the purpose of the present invention is to effectively reduce arc operating energy by effectively using arc energy with excellent arc extinguishing performance and stable excellent operating performance in a wide range of arc currents. Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

Figure 1 shows the configuration of the switchgear which is an embodiment of the present invention. That is, in FIG. 1, reference numeral 1 denotes a container in which an arc chamber fluid is enclosed, and 2 denotes a container 1 and a booster chamber 22 and a posi- tion 23 on both sides of the main body 21. At the same time, an arc extinguishing chamber in which an extinguishing fluid is stored, (3) is a fixed contactor disposed in the extinguishing chamber (2), and (4) is arranged to be detachable from the fixed contactor (3). A movable contactor having a sphere 41 and an outlet 42, 5 is installed between the movable contact yarn 4 and a manipulator not shown, and shows the release speed of the movable contactor 4 as shown in FIG. as becomes faster up to exit through the points P ₁ P ₂ points in the ferro-position, it is a control device with two different types of springs 51 and 52 are controlled to be delayed until the open position P ₂ in the point in two steps.

In addition, the enclosure 23 has a length for maintaining the outlet 42 of the movable contactor 4 in a closed state until the movable contactor 4 is separated from the fixed contactor 3 by a predetermined distance. It is installed by extension.

In addition, the control device 5 has a length that can be operated with respect to the lever 55 and the greba 55 which are connected to the movable contactor 4 at the connection point 53 and which can be rotated about the point 54. The other springs 51 and 52 are provided. In this embodiment, the working length of the spring 52 is longer than the length of the spring 51.

2 shows the operating characteristics of the device shown in FIG. In FIG. 2, t ₁ represents the departure time of the two contactors 3 and 4, and t ₂ represents the shift time of the separation speed of the movable contactor 4.

In such a configuration, a tripping command is given to a manipulator (not shown) and the movable contactor 4 is rapidly accelerated in conjunction with this, and descends from the fixed contactor 3 to move the movable contactor at the point p _{1 of} FIG. 4) is released from the fixed contact (3) and arc is generated in the moving. In this case, since both of the springs 51 and 52 are actuated to the lever 55, the moving speed of the movable contactor 4 is high.

Therefore, the arc is accelerated rapidly and the arc is extended in a short time by the movable contactor 4 which descends at a high speed thereafter, and the arc voltage rises rapidly to increase the arc energy to activate the boosting action of the surrounding fluid. For this reason, in the boosting chamber 22, it raises to the pressure required for extinguishing in a short time.

When the movable contactor 4 passes the p ₂ point in FIG. 2, only one spring 52 is actuated on the lever 55, and the moving force decreases and decreases because the operating force on the lever 55 is reduced. Before and after the moving operation, the outlet 42 of the movable contactor 4 passes through the end of the enclosure 23, and the fluid outlet 41 of the movable contactor 4 passes through the outlet 42 and the container 1. Since the arc current closes to zero because the release current is released into the inside, when the outlet 41 is released from the closed state by the arc, the arc current is reduced to zero in a short time by the strong diffusion force and cooling power of the boosting fluid in the boosting chamber 22. do.

Since the movable contactor 4 is decelerated in the latter half of the lowering operation, unnecessary elongation of the arc is suppressed, excessive arc energy is not injected into the arc space, and high temperature of the boosted fluid is prevented. In addition, since the movable contact 4 stays in the enclosure 23 for a long time, the relationship between the outlet port 41 and the booster chamber 22 is maintained stably, and stable performance is exhibited even in a phase relationship in which the arc is elongated.

As described above, the magnetic extinguishing type switching device according to the present invention accommodates a pair of contacts that can be detached from each other, and an arc extinguishing fluid that is boosted by arcs generated between the contacts in the extinguishing chamber and at the same time, the contact of the contact system to the drive system. By installing a control device that controls the speed in at least two stages, and by supplying the boosting fluid in the arc chamber by the arc generated between the two contacts, the boosting action can be effectively controlled by a simple configuration to improve the extinguishing performance. In addition, the above embodiment has been described in which the driving force given to the copper contactor by the spring is changed, but the present invention is not limited thereto. For example, the driving force given to the movable contactor may be the same and the control force may be changed. Of course, you get the effect.

Claims (1)

A pair of contacts filled with an arc-like fluid which is configured to be detachable from a pair of contacts 3 and 4, and is boosted by an arc generated between the contacts 3 and 4 when the contacts 3 and 4 are detached. A pair of contacts (3) (4), which consist of a device for spreading arc between the contacts (3) (4) of the seal (2), and at least one movable contact (4) and a fixed contact (3). And a control means having a control device (5) for controlling the release speed of the movable contactor (4) after being released from the fixed contactor (3) in at least two stages. Control means having at least two springs 51 and 52 which retract with respect to the control device 5 such that the 4 engages with the fixed contactor 3 at high speed and is attached to the contactor 4; At least two springs 51 for actuating the movable contactor 4 until 4) is at a constant distance from the stationary contactor 3 ( 52) The generation of arc energy in the arc space between the movable contactor 4 and the fixed contactor 3 by stopping the operation at the release point and reducing the release speed to prevent the rapid expansion of the arc. Of the two springs (51) (52) to prevent the temperature rise of the extinguishing fluid, and to keep the movable contact (4) open by decelerating in the extinguishing chamber (2). At least one of at least two springs for controlling the extinguishing by supplying a boosting fluid of the arc-extinguishing chamber 2 boosted by the arc generated between the contactor and the fixed contactor 3 to control the release speed of the movable contactor 4, and at least Self-extinguishing type switchgear characterized in that it comprises a boosted fluid to be diffused into the arc in the second stage.