JPS62262323A - Load switch - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a load switch such as a pole switch that cuts off and turns on load current in a power supply system. The present invention relates to a load switch installed in a power distribution circuit having a capacity of about 100 A of current.

[Conventional technology]

The present inventors previously proposed a load switch equipped with an arc extinguishing chamber shown in FIG. 2 as U.S. Pat. No. 60-152476.

Is this load switch connected via an external terminal (not shown)? It includes a fixed electrode 1 connected to the ltm side and a fixed electrode 2 connected to the load side. On the other hand, the movable electrode 3 is arranged so as to be movable in the vertical direction in FIG. 2 by an external drive device (not shown). This movable electrode 3 is brought into contact with the tulip contact 4 when energized, and is moved downward when cut off.

Further, a blow coil 6 is arranged to surround these fixed electrodes 1.2 and movable electrode 3 via a cylindrical insulator 5, and the blow coil 6 generates a magnetic field inside the arc extinguishing chamber. .

The tulip contact 4 has a shape in which a plurality of contacts are arranged in a ring shape, and is constantly connected to the fixed electrode l.

One end of the tulip contact 4 makes 74fi contact with the movable electrode 3 when energized. This tulip contact 4 is pressed against the fixed electrode 1 and the movable electrode 3 by a spring 7 and is fixed.

A buffer chamber 8 is provided inside the movable electrode 3 . The upper end of the puffer chamber 8 is opened so that when the movable electrode 3 moves downward, the internal soot is discharged from its tip. In order to effectively discharge this gas, a gasket 9 is interposed between the lower part of the movable electrode 3 and the fixed electrode 2.

Further, the movable electrode 3 is electrically connected to the fixed electrode 2 by a current collector IO.

The cylindrical insulator 5 placed inside the blow coil 6 is
It is made from ceramics.

A third annular electrode II is connected to the blow coil 6 by penetrating a part of the insulator 5.

This load switch operates as follows.

First, when an attempt is made to disconnect the movable electrode 3 by lowering it downward, an arc A as shown in FIG. 3 is generated between the cherryp contact 4 and the movable electrode 3. As the movable electrode 3 moves, this arc A1 has one side facing the third electrode 1.
1, which becomes the arc At, then the 3rd one.
It is elongated between the electrode 11 and the movable electric field pi 3, resulting in a long arc A. When the arc changes in this way, the circuit current is flowing through the blow coil 6 while the arcs A2 and A3 are maintained, so a field 611 is generated as shown in FIG. 3. Therefore, arc A is
It receives magnetic driving force and extinguishes the arc while rotating.

[Problem that the invention seeks to solve]

In such a switch, the degree to which the magnetic field generated by the blow coil 6 is perpendicular to the arc A2 or the arc ^ is small, so the magnetic force that drives the arc A2 or the arc A to turn is small, and the arc A ! Or arc A
, the proportion of contact with the arc-extinguishing gas is also small, therefore,
The cooling effect of arc-extinguishing gas is small, and excellent arc-extinguishing ability cannot be obtained.

The present invention provides a load switch with excellent cooling ability and arc extinguishing ability by improving the mode of action of the magnetic force that drives the arc to rotate in the arc extinguishing chamber formed of such an insulator. The purpose is to provide

[Means for solving problems]

In order to achieve the object, the load switch of the present invention arranges a cylindrical insulator surrounding the contact part between the fixed electrode and the movable electrode, and arranges a blow coil outside the insulator,
In the rotary arc type arc extinguishing chamber in which a third electrode connected to the blow coil is provided on a protrusion of the insulator, an En-based body is disposed below the blow coil.

Furthermore, when a conductive ring is placed between the insulator and the blow coil, the composite magnetic flux of the magnetic flux generated by the arc current flowing through the blow coil and the magnetic flux generated by the secondary current flowing through the conductive ring. Accordingly, the arc current reaching three points can be reliably extinguished.

[Heavenly Example]

Hereinafter, the features of the present invention will be specifically explained with reference to Examples.

FIG. 1 shows the load switch of this embodiment. In the same figure, parts corresponding to the parts shown in FIG. 2 are indicated by the same reference numerals, and their explanation will be omitted.

In the FT cargo opening/closing switch of this embodiment, a conductive ring 12 made of a conductive metal such as copper or stainless steel is provided between the blow coil 6 and the cylindrical insulator 5. Also, below the blow coil 6 is iron.

A magnetic material 13 such as permalloy or magnetic ceramics is arranged. The conductive ring 12 and the magnetic body 13 are prepared as an annular body in which an interruption is formed in a part or an annular body divided into many parts.

Note that a groove [4] is provided in a part of the cylindrical insulator 5. By accommodating a conductive wire 15 connecting the blow coil 6 and the third electric bit in this groove 14, the blow coil 6 and the TX@-type ring 12 are insulated.

Next, we will explain the operation of this load switch.
The effect of the present invention will be clarified.

When the movable electrode 3 moves downward as shown in FIG. 1, the arc A moves between the movable electrode 3 and the third fi pole 11.

Here, the magnetic field in the absence of the magnetic body 13 is almost not perpendicular to the arc A. Therefore, the magnetic driving force applied to the arc A is small.

On the other hand, in this embodiment, the block 1'
Since the magnetic body 13 is disposed below the arc A, the magnetic field created by the blow coil 6 is bent toward the magnetic body 13 near where it intersects with the arc A, as shown in the figure. Therefore, the components of the If field perpendicular to arc 8 increase.

Further, the magnetic field that was directed toward the movable electrode 3 in the conventional example is now directed toward the magnetic body 13. Therefore,
The magnetic flux density itself also increases. Therefore, the magnetic driving force for the arc 8 is increased, and the turning motion of the arc A is promoted.

This high-speed rotation of the arc A promotes the contact of the arc 8 with the arc-extinguishing gas, making it possible to fully utilize the action of the arc-extinguishing gas.

Further, by providing a conductive ring 12 inside the blow coil 6, the magnetic fields generated by the blow coil 6 and the conductive ring 12 generated by the arc T flow are combined and act on the arc current. As a result, the phase of the magnetic flux lags behind the arc current, and the arc current reaches its zero point.
■The arc can be extinguished reliably by applying the field.

The magnetic flux generated only by the blow coil 6 becomes smaller as the arc current becomes smaller, and its acting force also becomes smaller. On the other hand, by delaying the phase of the generated magnetic flux using the RT4 ring 12, it is possible to maintain the blowout effect of the magnetic field and reliably extinguish the arc even in the vicinity where the arc current becomes zero.

〔Effect of the invention〕

As explained above, in the load switch of the present invention, since a magnetic body is provided that deflects the magnetic field generated by the blow coil, the orthogonal component of the magnetic field to the arc can be increased. In addition, this magnetic material allows the magnetic flux density itself to be high, increasing the magnetic driving force applied to the arc. Therefore, the swirling motion of the arc is promoted and the cooling effect is improved. In this way, according to the present invention, fJJ with excellent arc extinguishing ability
rl;fl! ? 1!1J3AI! Lah4゜

[Brief explanation of drawings]

FIG. 1 is a diagram illustrating the operation of a load switch according to an embodiment of the present invention. On the other hand, FIG. 2 shows a conventional load switch, and FIG. 3 is a diagram explaining its operation.

Claims (1)

[Claims] 1. A cylindrical insulator is disposed surrounding the contact portion between the fixed electrode and the movable electrode, a blow coil is disposed outside the insulator, and a blow coil is connected to the blow coil. A load switch, characterized in that a rotating arc type arc extinguishing chamber has a third electrode provided on a protrusion of the insulator, and a magnetic body is disposed below the blow coil. 2. A load switch comprising a conductive ring disposed between the insulator according to claim 1 and the blow coil.