DE4015135A1 - CONTACT ARRANGEMENT FOR VACUUM SWITCH TUBES - Google Patents

Description

The invention relates to a contact arrangement according to Ober Concept of claim 1.

Such contact arrangements for vacuum interrupters are already known, in particular from DE-OS 34 11 784. To compress the cylinder wall through the contact to prevent pressure, you have a support in the form a circular cylinder or a hollow truncated cone in Inside the pot contact piece - on its cylinder wall adjacent - placed. Such a construction requires a complex manufacture and causes problems because of the different expansion coefficients of the mate rialien. Finally, the relatively massive Support a not inconsiderable share of electricity the one that ent the webs to form a magnetic field is pulled.  

In the contact arrangement of DE-OS 29 47 562 one has egg ne support in the form of a cylindrical ring into one running front groove of the contact carrier wall inserted. Around to prevent current conduction through the support these are insulated from the support wall, which is a represents additional effort.

The object of the invention is to provide a support create that are easy to manufacture and assemble allows to transmit high contact pressures and still only needs a small cross-section.

The solution is achieved with the characteristic features of the Claim 1.

The pins running predominantly in the holes are in the axial direction of the contact piece with a he resilient surface pressure resilient. The hole leaves easy to manufacture and on the bottom of the blind hole Pin a secure stop to transfer axial powers. In the opposite of the blind hole The pin, if it consists of a metallic or metallized ke ramische material exists, simply by soldering be set.

Is the hole in the cylinder from the front wall introduced, the pin is convenient led to the front. It is then due to that on the Front wall attached contact element and needs no longer be attached in the adjacent web part. Pins made of Ke are particularly suitable for this arrangement ramik or ceramic composite material, which then for a Lö need not be specially prepared.  

When using steel pins, the anyway between the contact element and the forehead of the cylinder solder foil inserted in the wall for soldering in the gren Take care of the bridging section.

Should the pin (with a corresponding incline the slide ze) bridging several slots, this does not constitute Problem.

With the appropriate length of the slots per Slot length two or more pins required who the. It is essential that a pen near the The beginning of the slot on the face of the cylinder wall pla is adorned because this area for an axial compression is most sensitive. When using ceramic pen It is advisable to use only those with an elevated Use fracture toughness. These are usually out Ceramic composite materials according to the subclaims Chen 8 and 9 manufactured.

The invention is based on an embodiment explained in more detail.

Show it:

Fig. 1 is a contact arrangement having two contact pieces pot in switched-on position,

Fig. 2 is a plan view of a pot contact piece with the contact element removed.

The pot contact pieces 11 and 12 consist in wesentli Chen from the pot bottom 13 , 14 , in which the Stromzuleitun gene 15 , 16 are used. The cylinder walls 17 , 18 acting as contact carriers are molded onto the base of the pot. On the end face 19 , contact elements 20 , 21 are set up in the form of disks or washers. Their material differs from that of the cylinder walls, because it is set directly from the switching arc. It therefore has favorable properties with regard to tear-off current, contact resistance, tendency to sweat and burn-off. The remaining parts of the contact arrangement generally consist of highly degassed copper material.

In the cylinder walls 17 , 18 slots 22 are introduced, which begin at the end face 19 and are guided into the pot bottom 13 , 14 or its vicinity. They are inclined to the axis of rotation 23 of the contact arrangement or the con tact pieces. This creates webs 24 , 25 for the current flow, which always contains a directional component inclined relative to the rotational axis 23 . In the course of the webs shown in the opposing pot contact pieces 11 , 12 , an arc arising between the contact elements will form a current loop, the magnetic force of which causes the arc to rotate between the contact elements.

The number of webs and their inclination to the axis of rotation can be selected as desired. When they are switched on, they are subjected to very large mechanical forces in the axial direction. In addition to compression, these forces also cause the individual webs to bend to a certain extent overhanging the pot base. The cylinder walls 17 , 18 shorten in the axial direction and the webs close short. To prevent these harmful effects, a bore 26 , that is a total of four bores, is introduced into the cylinder wall 17 , 18 each per slot 22 . They will never dergebracht from the end faces 19 of the cylinder walls, so that the end of the pierced 19 nearby web portion and the web portion underlying, located beyond the slit 22 is provided with a blind hole. There should no longer be a slot in the axial direction between the blind hole and the pot base 13 , 14 . The blind hole can also end in the bottom of the pot itself.

The bores are generally located on an average circular diameter of the cylinder wall (see FIG. 2).

Cylindrical pins 27 are inserted into the bores. They penetrate the web part or parts that are located between the forehead 19 and the web part with the sack hole and extend to the bottom of the Sacklo ches. On the other hand, they are flush with the forehead 19 of the cylinder walls. After soldering the Kontaktele elements 20 , 21 on the forehead 19 , the pins 27 are secured against falling out and fixed. This type of placement has the advantage that the pins do not necessarily have to enter into a soldered connection, that is to say metalization can be dispensed with when using ceramic pins.

Nevertheless, it may be appropriate to put the pens on everyone Solder the case in the bridge part close to the forehead. this has the advantage that bore and pin length with larger Tolerances can be selected. It is essential that the pins transfer the contact force and impermissible compressions or prevent bending of the webs.  

For larger contact piece diameters, corre Long pins also inserted two pins per slot be set. In any case there is a pen in the To be placed near the beginning of the slot. The other one can be used near the slot end.

Stainless steel with a sufficiently low electrical conductivity is a suitable metallic material for the pins. This material is solderable, and the pin is included without further measures in the solder connection of the contact elements 20 , 21 with the corresponding cylinder wall. Due to the low electrical conductivity of the metallic material in relation to the function of the contact, the line bypass resulting from the metallic pins inserted in the pins is irrelevant and therefore negligible. Metallic materials, e.g. B. stainless steel, ha ben over the ceramic materials have the advantage that they are cheaper and do not break under mechanical stress.

When using ceramic materials for the pins, ceramic composite materials with a high fracture toughness should be used in particular. Ceramic materials can be strengthened into composite materials by incorporating reinforcing components such as Y ₂ O ₃ (yttrium oxide), TiC (titanium car bid), TiN (titanium nitride), ZrO ₂ (zirconium oxide). Al ₂ O ₃ with dispersed SiC (silicon carbide) fibers has proven to be a particularly suitable material due to its particularly high fracture toughness.

Ceramic materials have compared to metallic work have the advantage that they, at least in the spring of July Chen condition, no ne between the individual webs generate closure.

Claims (9)

1. Contact arrangement for electrical vacuum switching tubes, with coaxially arranged pot contact pieces, the cylinder wall adjoining the pot bottom, which acts as a contact carrier, is divided into webs (current paths) by slots that run obliquely to the axis of rotation of the contact piece, and the forehead of the cylinder wall with a disk - Or annular con tact element is covered and that the slots are bridged by means of a poorly conductive support compared to the contact carrier, characterized in that the support is formed by at least one cylindrical pin ( 27 ) ge, which is in an approximately parallel to the axis of rotation onsachse ( 23 ) of the contact piece ( 11 , 12 ) erstrec kenden bore ( 26 ) of the cylinder wall ( 17 , 18 ) is inserted, the pin ( 27 ) - seen in the insertion direction - in the beyond the or the slot ( 22 ) The engaging web part engages in a blind hole and in the ge blind hole in the axial direction opposite web part, in which it engages first - the or the slots mechanically bridging - is fixed. 2. Arrangement according to claim 1, characterized in that the pin from the end face ( 19 ) of the cylinder wall ( 17 , 18 ) inserted and the blind hole is located in a web portion near the pot bottom. 3. Arrangement according to claim 2, characterized in that the pin ( 27 ) is flush with the Stinrseite ( 19 ) of the cylinder wall ( 17 , 18 ). 4. Arrangement according to one of claims 1 to 3, characterized in that the pin ( 27 ) in the web part, in which it engages first, is festge by soldering. 5. Arrangement according to one of claims 1 to 4, characterized in that two or more pins ( 27 ) are used per slot length, one of which in the immediate vicinity of the slot beginning on the end face ( 19 ) of the cylinder wall ( 17 , 18 ) is placed. 6. Arrangement according to one of claims 1 to 5, there characterized by using a stainless steel pin is. 7. Arrangement according to one of claims 1 to 5, characterized in that a pin ( 27 ) made of ceramic is used. 8. Arrangement according to claim 7, characterized in that the pin ( 27 ) consists of a ceramic composite material, wherein in the ceramic reinforcing components such as Y ₂ O ₃ , TiC, TiN, ZrO _{2 are} embedded. 9. Arrangement according to claim 7, characterized in net that SiC fibers in the material of the ceramic pin are stored.