JPS58157016A - Vacuum 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 The present invention relates to a vacuum switch having a structure in which a contact pressure spring for applying contact pressure between the contacts of a vacuum switch tube is directly pressed against an insulating flange.

An example of a conventional device of this type is shown in FIG. Figure 1 shows the input state 6t-, α) is the vacuum switch tube, @ is its fixed contact terminal, (field is the movable contact terminal, (i)
shows an insulating flange for electrically insulating and connecting the movable contact terminal of the vacuum switch tube (1) and the conductive drive rod (6) via the drive rod (4).

17111 shows a contact pressure spring for applying the required contact pressure between the contacts of a vacuum switch tube (υ), one end of which is directly pressed against an insulating flange (6) made of an insulating material such as resin, and the other end wire, An electrically conductive drive cap for transmitting drive force from a drive unit (not shown) is pressed to zero.

(9) shows a sleeve provided in a concentric cylindrical shape on the outside of the quadrielectric drive rod (6), and the drive link 0! l is designed to slide inside it.

(&) indicates a wire provided to prevent the tip of the conductive sleeve (II) from fjiIsing the insulating flange (5).

During the opening operation of the vacuum switch, the ninth conductive drive plate receives the driving force of the drive link and transmits the opening force to the vacuum switch tube Oo.
) and the sleeve (9).

01 indicates the sliding gap provided between the sleeve (9) and the drive link (I21), (14 indicates the spring deflection gap created by the deflection of the contact pressure spring (71) in the closed state,
This gap is in contact during the opening operation and in the opening state.

Next, the operation will be explained. Vacuum switches require contact pressure to be applied in order to reduce the contact resistance between contacts, shorten the electrode swing time when closing, and suppress opening due to electromagnetic force when applying short-circuit current or energizing. However, as a means for this purpose, a contact pressure spring (7) is generally provided as shown in FIG.

Figure 1 shows the closed state, but when the opening signal is applied in this state, the drive link a21 slides on the sleeve (9) and moves downward in the figure, causing the drive plate to scream. After hitting this, the drive plate 1101 moves further downward. Therefore, this one sounding plate tool IC is connected to the drive rod (61, insulating flange fil, M moving rod (4),
The movable contact terminal (3) also moves downward, and the contact of the vacuum switch tube opens. When a predetermined contact gap is reached, the contact opening operation is completed and the drive link θ2 is fixed.

In the open state, the contact pressure spring (7) is generally set in a compressed state, and a normal vacuum switch tube has a self-closing force, so the drive plate 1101 receives an upward force. Therefore, the drive link (I21 and drive plate +10
1 is fused.

Next, when a closing signal is input in this state, the drive link (12
1 is opened, and due to the driving force and the self-closing force of the vacuum switch tube (1), the drive plate -, the drive rod B +61, the insulating flange (6), the drive rod A (4), and the movable contact terminal ■ move upward. The contact points touch each other. #JJ after contact contact
Excitation point terminal (3), drive rod 14), insulation flange (6)
), the drive 11nt tel and the 1st moving plate stop, but the drive link θ moves further upward Dm while sliding on the sleeve 191 due to the driving force, further shrinking the contact pressure spring (7), and the specified When the pressure is reached, it stops and becomes fixed. This applies contact pressure between the contacts and completes the closing operation.

In this state, the % drive link (121 and drive plate 110
There is a spring deflection gap (4) between the drive link (+21) and the sleeve (91), and a sliding gap O$ is provided between the sliding parts of the drive link (+21) and the sleeve (91), so there is no electrical contact during this time. Complete.

Since the conventional switch is configured as described above, in the closed state, the drive link QS6 and the drive plate 1101.

It is difficult to maintain constant electrical contact between the nut (II), sleeve (8), drive rod B (6), washer (8), etc. Also, in general, the drive link +121
is connected to a drive unit (not shown) and is grounded to air/air/liquid. While the vacuum switch is in use, the movable contact terminal becomes a live part and an electric field is generated between it and the grounded contact terminal, but the sleeve Isl! 4 is not in complete electrical contact with either the live part or the ground part, an electric field determined by a partial pressure ratio of 1 is generated in the minute sliding gap +131 between the drive link Q21 and the sleeve (91). Corona may be generated in the sliding gap H between the vacuum switch and the vacuum switch.

This invention was made in order to eliminate the drawbacks of the conventional ones as described above, by providing a metal spring between the washer (8) and the h drive link (121).

Sleeve +s+, - rod (6), drive plate (11, nut (Ill)) are in electrical contact with this washer (8).
The purpose of the present invention is to provide a vacuum switch which can prevent the occurrence of rona by making the drive ink and the drive ink the same potential.

An embodiment of the present invention will be described below with reference to the drawings. Second
In the figure, %0ff) is the washer (8) and drive link 0.
21 similarly provided conductive anti-corona springs;
The other iN4 components are the same as in FIG.

In this device, the closing and opening operations are the same as in the conventional method. However, in the input state.

The corona prevention spring ao has the effect of electrically contacting both the drive link (121) and the washer (8),
a sleeve (9) in contact with this washer (8);
Drive rod ts+, 2g moving plate 11Q1. (Nara) (Ill, etc. are all in air contact with the drive link (121). Therefore, even if the movable contact terminal (3) becomes a live part during use, the spring deflection gap 04 is " There will be no corona outbreak.

The purpose of this anti-corona spring (15) is to obtain an electrical contact between the washer (8) and the drive link +121, and not to increase the contact force, therefore the anti-corona spring (I The spring force of Xun is 1 of contact pressure spring (7)
15 is sufficient, and the cheapest one that can withstand the predetermined number of openings and closings may be selected.

Various other methods can be considered for the same purpose, but according to the present invention, the purpose can be achieved by very inexpensive means.

As described above, according to the present invention, since the corona prevention spring is provided, it is possible to prevent the occurrence of corona in an inexpensive manner.

[Brief explanation of drawings]

FIG. 1 is a sectional side view showing an example of a conventional vacuum switch, and FIG. 2 is a sectional side view showing a vacuum switch according to an embodiment of the present invention. (1)...Vacuum switch tube, (No...Fixed contact terminal, (3)...Movable contact terminal/child, (4)...Drive rod,
(6)...Insulating flange, (6)...Drive rod, (7
)...Contact pressure spring, (8)...Washer, (9)...
... Sleeve, (11... Drive plate % (11)... Nut, 021... Drive ring, θ3... Sliding gap,
I...Spring deflection gap, Qω...Corona prevention spring 1 In the figures, the same reference numerals indicate the same parts. Agent Makoto Kuzuno

Claims (1)

[Claims] A contact pressure spring for applying contact pressure between the contacts of a vacuum switch tube is pressed directly onto an insulating flange for electrically insulating the connection between the movable contact terminal of the vacuum switch tube and the drive section. In the vacuum switch which is made of A vacuum switch characterized in that it is provided in a concentric cylindrical shape inside the contact pressure spring so as to be in constant electrical contact with the contact pressure spring.