SU1350669A1 - Insulator - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the manufacture of electrovacuum appliances. The purpose of the invention is to increase the electric strength when operating in vacuum. On the insulating part of the insulator, slit-like slots are made with protrusions on the opposite walls. This makes it possible to increase the electrical strength of an insulator operating under conditions of intense fluxes. 1 hp f-ly, 4 ill. co. about cd qd qd

Description

The invention relates to electrical engineering and can be used in the manufacture of heated vacuum devices and apparatuses in the electronic, electrical and instrument-making industry.

The aim of the invention is to increase the electrical strength at work in a vacuum.

FIG. 1 depicts an isotator, partially placed in a vacuum chamber; in fig. 2 — node A in FIG. one; in fig. 3 - insulator, fully placed in a vacuum chamber; in fig. 4 — node II in FIG. 3

In the vacuum chamber 1 (Fig. 1) a high-voltage insulator is partially placed, consisting of the insulating part of the rotation body 2 and the metal armature 3. The high-voltage insulator with end fitting 4 on one side is vacuum-welded to the vacuum chamber 1, on the other hand to high voltage electrode 5.

On the surface of the insulating element, there are slots of depth a, the width of this projection width b between two adjacent slots.

The optimal relationship between the quantities a, b and t is described by the inequalities

0.6 c2 b 6 1.75;

and g zf ..

The high-voltage insulator placed completely in the vacuum chamber 1 (Fig. 3) consists of end metal fittings 3, with which it is attached to the vacuum chamber 1 and electrode 5, as well as the insulating element - in the form of a rotation body 2, on the surface of which Throat cut I

The openings on the walls on the open side are made projections 6 opposite one another, the height of which does not exceed half the width of the slot.

The choice of geometrical dimensions of the slot-like grooves in a high-voltage insulator is determined by the following factors: the desire to maximize, increase the distance between the electrodes along the surface of the insulator, the possibility of getting thin and without defects at the base of the protrusions between adjacent slit-shaped grooves, and secondary electronic characteristics

insulator, in vacuum.

All these factors are mutually dependent, which determines the size of the slotted slots and the size of the projections between them.

The performance of high-voltage insulators in vacuum is characterized by discharge characteristics and the total value of leakage currents (bulk and surface) or the conductance of the insulator,

Bulk conductivity depends on

5 properties of the corresponding electrically insulating material of the insulator, and the surface conductivity mainly depends on the concentration of elements with high vapor pressure in the vacuum volume surrounding the insulator, the possibility of spraying conductive films on the insulator and other equal conditions between adjacent electrodes on the surface of an istor5 l torus. The greater this distance, the lower the operational reliability of the high-voltage insulator.

In this regard, the maximum increase in the distance between the final reinforcement of the insulator n, in turn, the minimum value of leakage currents is provided with the minimum allowable values of t and b and the maximum value of a.

From the point of view of the magnitudes of the discharge characteristics, the greater the t and the smaller b, the better, since the tip of the protrusion between the two slits

In any case, the electrically insulating gap between the reinforcement is proportional to the total value b of all protrusions.

At the same time, the width of the protrusion b and the slot-like groove depends on retroemission processes and their total size should not significantly exceed 3 mm, while the best discharge characteristics are observed.

Technology of manufacturing slit-like. This also imposes certain limitations, and the smaller the c and a and the larger b, the less likely it is that the protrusion will break or the crack may appear at its base.

five

31

It is possible to remove the revealed contradictions and optimize the shape of the slit-like grooves by experimental insulators.

This embodiment of the insulating element makes it possible to increase the electrical strength of a high voltage insulator operating under conditions of intense sputtering flows in a vacuum.

With the chosen construction of the insulating element, it is almost impossible to completely seal it in vacuum, which increases the operational reliability of the insulator.

50669

Claims (1)

Invention Formula 1, An insulator containing an insulating part in the form of a body of rotation and a metal reinforcement connected to it with metal-ceramic, characterized in that, in order to increase the electrical strength during operation in vacuum, slots are made on the surface of the insulating element parallel to the ends of the reinforcement , 2, the isolator according to claim 1, about tl and h aa y and with the fact that on the walls on the open side of the slot are made projections against each other, the height of which does not exceed half the width of the slot. ten 15 1 FIG. g Fig.Z // FagL Editor I.Nikolaychuk Compiled by S.Gosteyev Tehred L. Serdyukova Proofreader M. Pojo Order 5286/49 Circulation 697 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4