SU687510A1 - Rotary discharger - Google Patents

Description

(54) ROTATING DISCHARGE

This invention relates to spark switches used in high-voltage impulse technology.

Rotating dischargers containing fixed electrodes and a movable electrode mounted between them on a rotation shaft and having an oval cross-section are known.

 eleven.

In these dischargers, the same discharge gap is involved in each switching act and, therefore, a certain time is required to restore its electrical strength. This prevents the use of such arresters for switching high frequencies of high impulse currents.

The closest to the technical essence of the proposed is a rotating gage containing two coaxially mounted stationary conductive disks with radially located pairs of opposing electrodes on surfaces facing one another, between which a dielectric disk with openings displaced one relative to another

radial and azimuthal directions 2.

Each group of electrodes of fixed disks is switched by a corresponding group of holes of a rotating dielectric disk, and all the spark gaps are triggered in one turn, which allows increasing the switching frequency and the amount of switching power.

However, in such a device, the possibility of frequency hopping of the co-channel I and station and switched power is limited.

5 with the size of a rotating dielectric disk on which the switching elements are placed. Increase. the size of the rotating dielectric disk above the permissible leads to

0 the appearance of vibration and disruption of the switching process. The increase in the switching frequency due to the triggering of the same spark gap more than once at the same rotational speed is limited by the relatively long time to restore its electrical strength.

The purpose of the invention is to increase the switching frequency.

0

This is achieved by the fact that the proposed rotating gage contains two coaxially mounted stationary current-conducting electrodes on faces facing one another, between which a dielectric disk is mounted coaxially on a rotation shaft with holes that are biased relative to each other in the radial and azimuthal directions x is equipped with at least one additional conductive disk with electrodes electrically connected to one of the main conductive disks and coaxially mounted opposite each other The main conductive disk provided with electrodes on the surface facing the additional conductive disk and one additional dielectric disk with holes coaxially mounted on said rotation shaft between the additional and opposite main conductive disks, and the holes of the main and additional dielectric the disks are shifted circumferentially one relative to the other by an angle Щ, where n is the total number of holes in the main and additional dia ektricheskih drives.

Figure 1 shows schematically the described rotating bit; incision; Fig. 2 shows the arrangement of electrodes on a stationary conductive disk; Fig. 3 is a diagram of the arrangement of the holes on the rotating disks superimposed on one another in such a position in which they are fixed on the shaft (solid and dashed lines show imaginary spirals of the arrangement of the switching elements on them).

The rotating glitter contains parallel-mounted stationary conductive disks 1,2,3. On their surface on the extreme disks 1 and 3 on the inner side, and on the middle disk 2 on both sides are placed radially coaxial groups of electrodes 4,5,6. The disks 1 and 3 are electrically connected and the output 7 is connected to one pole of the current source (circuit), and the disk 2 by the output 8 is connected to the other pole. Between the fixed discs 1, 2, 3, there are placed dielectric disks 9 and 10 mounted on the shaft with identically located holes 11, 12 playing the role of switching elements.

The disks 9 and 10 are fixed on the shaft in such a way that the holes 11 and 12 of each of them are identically located one another relative to the angle °, where n is the number of switching elements and, respectively, the pairs of Electrodes of the rotating groove.

The proposed discharge for thirty-two acts of commutation for one revolution of the rotating part is made in two sections, where each pair of fixed disks 1-2 and 2-3 with sixteen parsed electrodes 4-5 and 5-6, respectively, and rotating rotary dielectric between opposite conductive disks The discs 9 and 10 are two sections.

To further increase the switching frequency, it is possible to perform a multi-section radar (more than two) which is achieved by increasing the number of fixed disks with alternating polarity and rotating disks placed between them with identical switching elements on each of them, spaced by an angle, where n is the total number of commuting elements, the groups of fixed conductive disks of the same name being electrically interconnected.

The rotating bit operates as follows.

A high voltage is applied to the fixed conductive disks 1,2,3, while the dielectric rotating disks 9 and 10 are simultaneously set in motion. As they rotate, all the holes are successively set to the coaxial position of the corresponding pair of electrodes on the fixed conductive disks 1, 2 , 3, at this moment there is a breakdown of the air gap between them and an act of switching takes place.

Since the holes in one rotating dielectric disk are offset from one another in the radial and azimuthal directions, and the identical holes in all rotating dielectric disks are spaced apart in sections and also shifted from one another, the sequence of their operation also alternates in sections.

Thus, each subsequent breakdown occurs alternately in different sections at equal intervals, which allows you to get the required high switching frequency and switched power in combination with reliable and accurate discharge operation.

Claims (2)

1. Patent of Great Britain No. 1.146.961. H1X, 1969 .: 2. USSR author's certificate No. 449409, cl. H 01 T 7/00, 1973. /