DE2513525B2 - CONTACT PIECE FOR VACUUM SWITCH - Google Patents

Description

The invention relates to a contact piece for vacuum switches, which consists of a mechanically solid, Electrically and thermally conductive, erosion-proof and sealed base made of tungsten or molybdenum consists, which has recesses in its work surface, which a non-liquid filling material with a lower arc voltage than that of the contact body included (DT-AS 12 31 333, US-PS 34 85 978; DT-AS 10 48 625, US-PS 29 00 476).

A major problem in the operation of vacuum shakers or vacuum contactors is the occurrence of overvoltages caused by steep changes in current are induced during the switch-on or switch-off processes. To understand how such a thing came about Overvoltages it is sufficient to limit oneself to the discussion of the switch-off phenomena.

After the sform-carrying electrodes have been separated at the beginning of the switch-off process, one takes over forming arc plasma further current transport. In the case of vacuum switching vessels, there is no possibility of to influence the arc behavior and especially the burning time by an external medium. The arc properties of vacuum switches are therefore, with a given current load and wiring, only determined by the contact material, the electrode geometry and the contact distance. Regarding the Overvoltage behavior, the critical switching cases are mainly in the low inductive range Currents, about 100 amps and less, where in general the influences of the electrode geometry and the contact distance are negligible.

On the other hand, there is the influence of the compact material decisive, so that the question of the connections between electrode material and associated Arc or arc breakage is of decisive importance for the selection of suitable contact materials receives

If a pair of electrodes carrying alternating current is separated, an arc is created between the Electrodes generated where the arc current is usually

ίο the sinusoidal changes in the alternating current amplitude If this process takes place in a vacuum, the arc plasma can only be produced through material evaporation and electron emission out of the electrodes are maintained. In the event of low currents (a few hundred amps) can be assumed to be the main contributor to the evaporation of electrode material and is supplied for electron emission from the region of the cathode spot so that in In this case the burning and stable behavior of the vacuum arc is mainly a cathode phenomenon is.

If such an arc is extinguished near the zero crossing of the current amplitude, so it turns out that the arc current is not

is sinusoidal up to zero, but breaks off shortly / before that. This current chopping is a well-known property of the vacuum arc and can be explained as follows: A minimum amount of plasma is required to maintain the arc.

d. H. there is sufficient electron emission from the cathode, which is caused by ionization processes plasma required for power conduction forms between the electrodes. The sinusoidal changes Current amplitude approaches zero, so the area of the cathode spot shrinks; so it will be the area of Reduced cathode, which is capable of emitting substantial amounts of vapor or electrons. at The plasma production can take place by corresponding cooling of the cathode spot edge zones released by the sheet from the remaining base point area are so small that the resulting charge carrier depletion the current carrying capacity of the arc is no longer given, which leads to a sudden Going out leads. The tear-off process is initiated by the sheet becoming unstable high-frequency superimpositions of the current curve can be seen. The current value at the breakaway point (breakaway current, Chopping current) is a statistical variable that is basically determined by the electrode material The absolute value in each case still depends on electrical and apparatus parameters in an often complicated manner. There the vacuum arc is dependent on its own plasma, these are the material properties for the service life of the arc and thus decisive for the size of the tear-off current, which has an influence on the steam resp. Have an amount of plasma between the electrodes. In the first place this is the vapor pressure of the electrode material, to which the amount of steam above the cathode is directly proportional. In addition influenced also the thermal conductivity of the cathode material the vapor rate.

In addition, the contact pieces built into the interrupter of a vacuum switch must also have a sufficient dielectric strength, e.g. B. after 10 * rated current switching cycles, a low welding force, especially after the occurrence of short circuits, as well as a have low contact erosion, so that maintenance-free operation during the "required service life

is guaranteed

These main demands on the contact pieces require compromises on the material, as a Material with good dielectric strength and low contact erosion generally has a high tendency to weld and also has a high chopping current, such as the z. B. applies to tungsten

With the relevant contact workers either the parameters "dielectric strength" and "burn-off" show good values, whereas "chopping current" as well as "welding force" insufficient or the properties behave vice versa Examples of the metals bismuth and antimony are low chopping currents.

For these reasons, an attempt was made to use suitable js Material combinations to achieve a satisfactory compromise in the contact material properties. Are known z. B. embrittling additives to copper or silver (DT-AS 10 74 120). These materials are suitable However, because of the high burn-up, they are primarily not suitable for vacuum contactor applications Line intended for medium voltage circuit breakers.

For the use of the vacuum switch in contactors with a required electrical service life of around If / switching cycles at nominal current are contact materials on the basis of molybdenum or tungsten known because of their low contact wear. Be multiple these are designed as sintered-impregnation composite materials, with a sintered tungsten body ζ. Β. with copper is soaked. These are the contact materials Dielectric strength, low welding force and low burn-off are satisfactory. However, this does not apply to the chopping current to. Comparative measurements have shown that the most frequently measured value for the Chopping current for tungsten-copper sets at about 5 amps. By adding a few percent by weight on bismuth, tellurium or antimony to the impregnating material copper, the chopping current can also increase to values around 1 to 2 Amps are lowered. The chopping current is also when the contact pieces are new and after a few hundred load shifts are still sufficiently low, however, if the number of shifts is high, the Surface layer of impregnation and filler material, which increases the tear-off current to impermissible high values of e.g. B. 5 amps and higher. Furthermore, the structure on the surface becomes brittle and layers peel off. In addition, there is a general weak voltage and switching failure increasing contact life.

An improvement - especially with regard to a low chopping current - resulted in a contact gap, which are known from DT-AS 10 48 625 and DT-AS 12 31 333. These contact pieces consist z. B. off a dense molybdenum body, in the recesses in the form of holes or a large central bore and a surrounding groove a material with a lower arc voltage than those of the main body are melted down. In the DT-AS 12 31333 is an example of such a thing Material specified a bismuth alloy. The arc burns preferentially on this filler material and creates a film on the molybdenum body, which causes the when switching small inductive currents Arc does not generate any critical chopping currents or excessive overvoltages.

However, if these contact pieces are exposed to high thermal loads, melting pearls form in the filler material, that drips out of the hole or groove.

Re-ignitions and extinguishing failures as well as a decreasing dielectric strength with an increasing number of switching operations of the vacuum switch are the result.

The invention is therefore based on the object of providing contact pieces of the type mentioned that have a improved high voltage behavior, improved dielectric strength, a lower welding force have lower contact erosion and where there is no depletion of the surface layer with a high number of operations enters the filler metal

According to the invention, intermetallic antimony compounds are used as filler material in the recesses of the base body provided with a minimum content of 45% antimony, the melting point of which is in the temperature range from 425 ° C to 1225 ° C

An antimony content has proven to be particularly advantageous of the filling material between 45 and 95%. Furthermore, the shape of the recesses is advantageous through or sack-like bores with a diameter of 1 to 5 mm, and their To measure the distance from each other to two to six times their diameter. It is not necessary to that all holes have the same diameter; it can also be a combination of Small and large diameter holes can be used.

The following antimony compounds have proven to be particularly suitable for the filler material: InSbSI, GaSb64, FeSb ₂ 81, MnSb53, AISb82, CrSb70, NiSb68. CoSb67 and SnSb80.

In the case of the contact pieces according to the invention, the erosion resistance is retained by the dense base body made of molybdenum or tungsten. Furthermore, there is no depletion of the filler material and no increase in the chopping current. The filler material cannot flow out of the grooves, which prevents re-ignitions and extinguishing failures. Nevertheless, there is always enough filler material - due to the large number of holes - available in a thin layer on the surface, and the formation of melt pearls due to the capillary force in the holes is largely avoided. The contact pieces have a good dielectric strength over the entire application range of z. B. 660 volts to 11,000 volts, whereby the impregnation with different materials, depending on the nominal voltage, is omitted. The dense molybdenum or tungsten base body with the filled bores is free from cracking or delamination from the work surface during the entire service life of the switching tube. Furthermore, the shape of the contact piece according to the invention has assembly advantages, since the bores do not have to face exactly as in the known contact pieces. By using intermetallic compounds as filler material, the previously selected composition of the two metals is maintained during the life of the contact piece, which prevents an increase in the chopping current. The lower limit (425 ⁰ C) the melting temperature of the filler is determined by the baking temperature of the Scualtröhren before the separation from the pumping unit. The upper limit (1225 ° C.) was chosen so that a slight melting into the bores still takes place and that no disruptive reactions of the metalide with the base body occur.

The invention is explained in more detail with the aid of the drawing and an exemplary embodiment.

In the figure, a contact piece is shown in section

the invention shown with the contact carrier. The contact piece t consists of the base body 2 with holes 3 in which the filler material is contained. The contact piece 1 is attached to the contact carrier 5. The base body 2 consists of dense molybdenum. Blind bores 3 with a diameter of 3 mm and a center-to-center spacing of 6 mm are made in the working surface 6 of the base body 2. These bores 3 are only so deep that the soldering surface 7 to the contact carrier 5 is not touched by the filler material 4. The filler material 4 consists of the intermetallic compound InSbSl with a melting point of 530 ° C. The filler material 4 is melted into the contact piece 1 under vacuum or protective gas. The contact piece 1 is then soldered to the contact carrier 5 under protective gas.
If the base body 1 is produced by powder metallurgy, it is advantageous to press the bores 3 into them when producing the powder blanks. The base body 1 can be produced as a sintered body with about 10 to 30% pore volume. The pores can be next to copper

ίο it additionally with a material with a getter effect, such as ; £. B. zirconium, titanium or chrome are soaked in non-condensable residual gases quickly from the To remove the gap between the electrodes.

1 sheet of drawings

Claims (5)

Patent claims: 1. Contact piece for vacuum switch, which consists of a mechanically solid, electrically and thermally conductive, erosion-proof and sealed base body made of tungsten, molybdenum consists of its work surface Has recesses that have a non-liquid filler material with a lower arc voltage than that of the main body contains, thereby characterized in that in the recesses (3) of the base body (1) as filler material (4) intermetallic Antimony compounds with a minimum content of 45% antimony are provided Melting point is in the temperature range of 425 ° C to 1225 ° C 2. Contact piece according to claim 1, characterized in that the antimony content is 45 to 95% amounts to. 3. Contact piece according to claim 1 or 2, characterized in that the recesses (3) have the shape have through or bag-like bores with a diameter of 1 to 5 mm, their Distance from each other is two to six times their diameter. 4. Contact piece according to claim 3, characterized in that combination of bores unequal diameter are provided. 5. Contact piece according to one of the preceding claims, characterized in that the intermetallic compounds InSb51, GaSb64. FeSb ₂ 81. MnSb53, AlSb82, ZrSb70. NiSb68, CoSb67 and SnSb80 are provided.