DE3344643A1 - Vacuum switching tube for medium-voltage switching apparatuses - Google Patents

Abstract

Vacuum switching tubes are intended to be arranged at the shortest possible distance from one another, especially in medium-voltage switching apparatuses. To this end, not only is it necessary to conform to specified flashover distances between live parts of different polarity, but it is also necessary to absorb considerable mechanical forces between the live parts. An embodiment which is improved with respect to this object is obtained by the housing being composed of two mutually coaxial insulating material parts (9, 10) which taper towards the outer connections (5, 6), the mutually facing ends (11, 12) of the two insulating material parts being connected to one another in a vacuum-tight manner. The invention can be used advantageously for medium-voltage switching apparatuses. <IMAGE>

Description

Vacuum interrupter for medium-voltage switchgear.

The present invention relates to a vacuum interrupter for medium-voltage switching devices according to the preamble of claim 1. Such a switching tube is for example from DE-AS 26 33 543 can be found. There the housing is made up of two cylindrical ones Composite insulation parts, with their opposite end faces a metal ring is connected in a vacuum-tight manner, which also serves as a holder for a cylindrical vapor screen is used.

In addition, vacuum interrupters are known and common in which the Housing in the area of the switching contacts forms a metallic switching chamber and at which are made of insulating material on both sides of this switching chamber in the axial direction Connect with a smaller diameter.

This embodiment has proven itself in vacuum interrupters for medium-voltage devices and systems that must be able to switch operating voltages between around 7kV and 36kV, largely enforcedO This embodiment is already relatively small and well-engineered the possibility of cylindrical insulating parts with a relatively small diameter to use, also relatively inexpensive.

In contrast, there is the object on which the present invention is based, in a further shortening of the vacuum interrupters according to the preamble of patent claim 1 and in an increase in mechanical strength without affecting the pole center distance must be enlarged, and in a cheaper design of the interrupter "Pole center distance" shows the distance between the rotation axes of the switching contacts of two E.g. in a vacuum switch adjacent switching tubes Understood.

This object is achieved by the characterizing features of patent claim 1 solved. A vacuum interrupter according to the invention has opposite tubes with a substantially cylindrical housing has the advantage of reducing manufacturing costs because voltage-dependent minimum distances between the contacts and the contacts surrounding vapor shield must be adhered to, so that there are vacuum-tight isolators large diameter are required. Such isolators are expensive. Another The advantage over tubes of the specified type is a reduction in size permissible pole center distance. This is due, among other things, to the tendency to rollover determined between adjacent interrupters and grows in particular with the diameter the flanges connected to the contacts in an electrically conductive manner on the end faces the insulating material.

Compared to vacuum interrupters with a metallic switching chamber and insulators with a smaller diameter connected to it on both sides in the axial direction, which are known e.g. from DE-OS 27 17 562, has the vacuum interrupter according to the invention the advantage of a shorter and more stable structure. By downsizing everyone Parts around the length of the switching chamber is in spite of being compared to the smaller isolators of the known embodiment, expensive, tapered isolators are a cost saving possible.

This embodiment also increases the sensitivity to laterally acting current forces and the sensitivity to a kink considerably reduced due to the very high contact thickness required, there the overall length of the interrupter no longer needs to be significantly greater than through the prescribed pitch, i.e. the required insulating distances between live parts of opposite polarity.

In the embodiment according to the invention, the power loss is reduced in the contact pin, the heating during the passage of current is lower and the critical regulations on the maximum permissible overtemperature in the area the interrupters is easier to meet.

The relatively short contact pins can withstand current forces of several 1000N, E.g. from neighboring phases in a medium-voltage switchgear, easier to record, the bending moment is lower corresponding to the shortening of the current path, the required Acceleration forces are lower due to the smaller moving masses.

The insulating material parts are advantageously designed in the shape of a truncated cone. This results in sufficient dielectric strength if the sum of the surface lines of the two truncated cones is equal to or larger than that required for the vacuum switch Striking distance.

The steam shield advantageously has at least one fastening flange on, which between the facing end faces of the two insulating material parts and is connected to these in a vacuum-tight manner. The insulating material parts consist of the usual materials such as ceramics, in particular aluminum oxide ceramics and connected by brazing to the adjoining parts of the housing in a vacuum-tight manner be.

The steam screen is advantageous even with the largest in operation provided opening of the switching contacts of both switching contacts a larger one Distance on as the two switching contacts from each other.

The steam screen is advantageously composed of two shielding plates, which each protrude into an insulating material, with at least one shielding plate has a mounting flange, the mounting flange between the two Front sides of the insulating material is and vacuum-tight with the insulating material is soldered. This embodiment is easy to manufacture in terms of manufacturing technology.

An embodiment in which each shielding plate has a mounting flange has and where both mounting flanges between the end faces of the insulating material has the advantage that the shielding plates are simply inserted into the corresponding insulating material used and soldered or soldered to these and each other in just one operation. can be welded.

For cases in which capacitive discharges are also carried out via the shielding plate interfere with the outside, the shielding plate can also be attached in a manner known per se that there is no conductive connection to the joint between the two insulating parts consists. For example, the insertion of a flange of the shielding plate is suitable for this purpose in a groove of at least one of the insulating material.

A conical shape of the insulating material is enough Protrusion on the inside out to form a suitably shaped steam screen to keep.

The invention will now be explained in more detail with reference to two figures. she is not limited to the examples shown in the figures.

Fig. 1 shows a vacuum interrupter according to the invention in partially sectioned Opinion, Fig. 2 shows an example of a vapor screen attachment in cut and broken view.

A vacuum interrupter has switching contacts, each of which Assemble from a contact piece 1 or 2 and a contact pin 3 or 4. The contact pins 3 and 4 are arranged coaxially to one another and through the housing passed through and form external connections 5 and 6, respectively, outside the housing Contact pins 3 and 4 are in a known manner with the end faces 7 and 8 of insulating parts 9 and 10 connected in a vacuum-tight manner. The insulating material 9 and 10 taper towards the outer connections 5 and 6, respectively, and face one another opposite end faces 11 and 12, between which flanges of shielding plates 13 and 14 are arranged. These flanges are with the end faces 11 and 12 of the Insulating parts 9 and 10 and connected to one another in a vacuum-tight manner.

The embodiment shown here ensures a particularly high mechanical strength of the vacuum interrupter, as the bending forces acting on the insulating material are transferred, converted at least partially into compressive forces by the conical shape will. However, ceramic is less sensitive to pressure and pressure than to it Bending forces.

Other forms of insulating material are also available in the embodiment shown conceivable, for example, asymmetrical frustoconical versions that have a further Allow shortening in particular of the contact pin 4 of the fixed contact. One Such an embodiment is for high rated currents and relatively low rated voltages advantageous, since in this case the required throw distances are less than the length required at least on the movable bolt, while the occurring Electricity forces are particularly high.

In a housing design according to the invention, switching pins can with the required flexural strength from a relatively inexpensive material higher electrical and thermal conductivity, in particular made of copper, which in the embodiments according to the prior art, no sufficient mechanical Would have strength.

In one embodiment of the invention, in which between each other facing end faces of the insulating material only the or the mounting flange the steam screen are arranged, the steam screen including its mounting flanges consist of ductile, non-magnetic material, e.g. copper or copper alloys. The fastening flanges which are not adapted to the ceramic in terms of their thermal expansion coefficient in this case sufficiently firmly connected by the ceramics adjoining on both sides, the vacuum-tight connection is guaranteed. So can interfere.

Generous humming noises when high currents pass through can be avoided.

The pole center distances, which are mainly caused by the current-carrying Flanges 17 and 18 on the end faces 7 and 8 and that in the area of these flanges strongly inhomogeneous electric field are determined, can by the invention Design can be kept small. You are only left with the immediate area the flanges 17 and 18 arranged parts determined. Their diameter can therefore be smaller be kept than in the known designs with a switching chamber made of metal and compared to this thinner cylindrical insulating material.

This embodiment also allows the pole center distance to be wider be reduced.

The embodiment and the attachment of the shielding plates 19 and 20 composite vapor shield of FIG. 2 holds the solder connection 23 between the insulating material 9 and 10 free of the potential of the vapor shield and shields this solder connection also from the ion plasma, which occurs during the switching process, away.

For this purpose, the vapor shield is made up of two different shielding plates 19 and 20 assembled, of which a shield plate 19 at a tapered Insulating part 9 rests, while the second shielding plate 20 has a flange ring 22, which rests against a stop surface 24 of the insulating material part 10. These Stop surface 24 delimits an annular recess 21 in insulating material part 10. In addition to this recess 21, the stop surface 24 is provided with an annular Elevation 25 is formed or enlarged on the inner wall of the insulating material part 10. This embodiment has the advantage that the vapor screen is easy to assemble are inserted into the recess 21 on a stop and then the insulating part 9 can be pushed on and soldered to the other insulating material part 10. In this Embodiment, the solder seam 23 is free from the shield potential and from the ion plasma, which arises in the switching chamber when switching off, shielded. A discharge via the solder seam 23 on objects in the vicinity of the vacuum interrupter therefore avoided in this embodiment for all anticipated stress loads In place of the stop surface 24, individual ones can also extend over the circumference of the insulating material part distributed stops occur when a stop surface is not required. as Individual stops are suitable e.g. knobs formed on the inner wall.

8 claims 2 figures

Claims (1)

Patent claims S vacuum interrupter for medium-voltage switchgear, which has a housing and at least one fixed and one movable in the axial direction Contains contact, these contacts being arranged coaxially to one another, wherein the contacts contain contact pins which are on opposite sides are led out of the housing and form external connections, which a housing composed of two coaxially arranged insulating material parts and one mechanically firmly connected to at least one of these insulating material parts Steam screen contains, as you can no longer draw e n t, that the insulating material taper towards the outer connections - and that the vapor shield of the housing shape adapted is 2 vacuum interrupter according to claim 1, d u r c h g e k e n n z e i c h n e t that the insulating material are frustoconical 3 vacuum interrupter according to claim 2, d a d u r c h g e k e n n n z e i c h n e t that the for vacuum switch required stroke through the sum of one surface line of each of the two truncated cones is guaranteed. 4o vacuum interrupter according to one of claims 1 to 3, d a d u r c h e k e n n n z e i n e t that the vapor shield even with the largest im Operation provided opening of the switching contacts of both switching contacts one greater distance than the two switching contacts from each other 5 vacuum interrupter according to one of claims 1 to 3, d a d u r c h g e n n n z e i c h n e t that the steam screen is made up of two shielding plates is which each protrude into a piece of insulating material and that at least one shielding plate Has fastening flange, which is between the two end faces of the insulating material and is soldered vacuum-tight to the insulating material. 6. Vacuum interrupter according to one of claims 1 to 4, d a d u r c it is noted that the vapor shield is attached to the insulating material outside is held by the end faces and no electrical contact with the soldering point has between the insulating material. 7. Vacuum interrupter according to claim 6, d a d u r c h g e k e-n n z e i c h n e t that at least one insulating part has a stop on its inner wall and that the steam screen up to a position defined by this stop is pushed into the insulating part. 8. Vacuum interrupter according to one of claims 1 to 7, d a d u r c it is noted that the steam screen, possibly including its Mounting flange, made of non-magnetic material, e.g. Copper, cupronickel, chrome-nickel steel.