JPS62287532A - 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] J. Detailed Description of the Invention [Field of Industrial Application] This invention relates to a switch for an electric circuit, and in particular to a switch for driving an arc generated when a contact is opened. The present invention relates to a switch equipped with a magnet for forming a cross magnetic flux to an arc.

[Conventional technology]

The second figure is Mikaakiaki! 9-777 is a partial vertical cross-sectional view showing the conventional switch shown in the open state; FIG.

In the figure, symbol (1) is the first terminal plate, (1 is the first
A fixed contact, which is the first contact attached to the terminal plate (C), (, t) @ a movable contact, which is the second contact that moves toward and away from the fixed contact (C), ( 51 is the second terminal plate to which the current collector is attached; and an opening at the other end
The outer cylinder (7) is a nozzle made of an insulator fixed to the opening of the outer cylinder (6), and has a movable contact (
31 is inserted into the through hole (7
It has a). (ff+ is the annular magnet shown in the nozzle (ri) K, (ri 1 is the storage chamber for insulating arc-extinguishing gas surrounded by the outer cylinder (61), (9a) is the storage chamber (ri) Storage chamber opening where insulating arc-extinguishing gas enters and exits, (tO)
is an arc that occurs when the movable contact (J+) separates from the fixed contact (K), and (/i) is formed in a cylindrical shape.

A cylinder whose one end surface is attached to the outer surface of an outer cylinder (61), (Hn is a piston attached to a movable contactor (J'r) and slidingly in contact with the inner circumferential surface of the cylinder (//).

(/3) is a negative ring formed surrounded by the cylinder (12) and the bottom surface of the outer tube (6) and formed when the movable contact (3) moves in the direction of arrow A.

Next, the operation of the conventional device will be explained.

When this switch is closed? If the flow is flowing from the first terminal (C) to the fixed contact (C), and from the movable contact (31) to the Y-column plate (S) via the current collector (S), Movable contact 1.?) is a drive mechanism (not shown)
When the movable contactor (Jl
is separated from the fixed contact (C), and an arc (
10) occurs.

On the other hand, the annular magnet [fl is magnetized in the axial direction.

At the storage chamber entrance (?a), a magnetic flux 1φ1 including a radial component is generated. The arc (10) receives a force in the circumferential direction due to this magnetic flux (φ), becomes a one-turn arc, and is stretched in the radial direction.The arc (10) receives the gas heating effect and is heated inside the storage chamber (?1). increase the gas pressure.

Next, after the arc is generated, the arc is extinguished by spraying p-edge arc extinguishing gas while the current reaches its peak and reaches zero.

In addition, since the piston (/) moves in the direction of arrow A in the cylinder (l/) together with the movable contact (31),
The pressure in the negative pressure chamber (/J) is made negative, and therefore,
The storage chamber (9
This supplements the outflow of insulating arc-extinguishing gas from 1 and assists in arc-extinguishing when a small current is cut off.

[・Problem that the invention seeks to solve]

However, in conventional switches that operate in this way, since the magnet (Sl) is magnetized in the axial direction,
The radial component of the magnetic flux Cφ) at the storage chamber entrance (9a') is small, and therefore the magnetic force in that direction is weak, so the circumferential driving force acting on the arc (10) at the storage chamber entrance (9a) is small. <
As a result, the heating effect of the insulating arc-extinguishing gas at the storage chamber opening (9a) is also small. Therefore, the pressure rise of the P-edge arc-extinguishing gas in the storage chamber (91) is small, and therefore the insulating arc-extinguishing gas to the arc Cl0 is small. The problem was that the blowing force was also weakened, and a sufficient arc extinguishing effect could not be obtained.

This invention was made to solve the above-mentioned problems, and an object thereof is to obtain a switch with improved arc extinguishing ability when a small current is interrupted.

[Means for solving problems]

In the switch according to the present invention, the magnet provided in the nozzle is an annular magnet magnetized in the radial direction.

[For production]

Since the annular magnet in this invention is magnetized in the radial direction, the magnetic flux formed by the magnet in the radial direction increases, and therefore the force that drives the arc in the circumferential direction increases and stretches the arc. by? The heating effect of the most arc-extinguishing gas also increases, thereby increasing the degree of pressure rise in the storage chamber, and as a result, the insulating arc-extinguishing gas from the storage chamber is blown onto the arc more strongly, resulting in a sufficient arc-extinguishing effect. have 7
[Embodiment] Fig. 1 is a partial vertical cross-sectional view showing an open state of a switch according to an embodiment of the present invention.

Magnets (excluding Jrl) are the same as those used in conventional equipment.

In addition, the nozzle (71) has six annular stones (col.
) is a magnet that is magnetized in the radial direction.

Since the magnet (2/) of this embodiment is magnetized in the radial direction as described above, the magnetic field at the storage chamber mouth (98) forms a magnetic flux distribution mainly having a radial component. Therefore, the cross magnetic flux with the arc (/θ) generated between the fixed contact [2] and the movable contact (Jl) increases and becomes stronger by 1, which acts on the arc (lO) (circumferential drive As the force increases and the arc (10) is stretched in the radial direction while rotating, the heating effect of the insulating arc-extinguishing gas by the arc increases2.Therefore, the pressure of the e-edge arc-extinguishing gas in the storage chamber (9) is Rise.

Since the blowing force of the insulating arc extinguishing gas to the arc (10) becomes stronger, sufficient arc extinguishing ability can be obtained.On the other hand, the radial magnetic field created by the radially magnetized magnet (2/) is generated near the nozzle exit. It also exists.

As explained above, the arc (10) near the nozzle (7) exit rotates with respect to this arc (10).

There is now a relatively low-temperature gas flow around the area,
The arc (10) near the exit of the nozzle (7) is further cooled to obtain a further arc extinguishing effect.In the above embodiment, the inside of the magnet (Y/) is the N pole.

Although it is configured so that the outside becomes the S pole, the polarity may be reversed and magnetized, or a plurality of magnet tubes magnetized in the radial direction may be combined to form a ring shape, and the effect is This is the same as the above embodiment.

The material of the magnet includes, for example, ferrite, alnico thread, samarium rare earth, and neodymium/iron/boron magnets, but if the magnet has a strong magnetic force, the arc extinguishing effect will be greater. [Effect of the invention] As described above, according to the present invention, the annular magnet magnetized in the radial direction is provided in the nozzle.

The magnetic flux has a large radial component, so the rotational driving force of the arc is strengthened and the arc is stretched.As a result, even when a small current is cut off, the gas pressure in the storage chamber is increased and the arc is extinguished. This has the effect of providing a switch with increased capacity.

[Brief explanation of drawings]

FIG. 1 is a partial vertical cross-sectional view showing a switch according to an embodiment of the present invention in an open state, and FIG. 2 is a partial vertical cross-sectional view showing a conventional switch in an open state. In the figure, (λ)...first contactor (identification contactor). (3)... No. 1 contact (movable contact) - (61... Outer cylinder. (7)... Nozzle, (91... Storage chamber, (9a) * Storage chamber opening, (10)...・Arc, (ko/)...Magnet. In each figure, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] (1) a first contact; a second contact that opens and closes with respect to the first contact; A cylinder, a nozzle provided at one end of the outer cylinder on the second contact side and into which the second contact is slidably inserted, and an opening/closing device having a magnet arranged in an annular or annular manner in this nozzle. A switch characterized in that the magnet provided in the nozzle is a magnet magnetized in the radial direction and arranged in a ring shape or in a ring shape.