DE19851964A1 - Contact piece for vacuum switch chamber has coil ring with upward and downward projections, with contact piece plate placed on upward projection - Google Patents

Abstract

The invention relates to a contact piece arrangement for a vacuum chamber, which is attached to a contact stem, and with a coil for generating an axial magnetic field. A support plate (11) is attached to the end face of the support stem (10), on which a coil ring rests, which has at least one circumferential area with an axially projecting first projection placed on the support plate and on the diametrically opposite circumferential area with a second projection axially projecting in the opposite direction owns. A contact piece plate is placed on the second projection.

Description

The invention relates to a contact piece for a vacuum chamber according to the preamble of claim 1.

To increase the breaking capacity of a vacuum chamber, more and more con Clock arrangements selected with which an axial magnetic field is generated because of this Axial magnetic field generates a diffuse arc even at the highest currents because of the switching capacity and the erosion behavior improved significantly in Comparison to a so-called radial magnetic field arrangement.

Contact piece arrangements in which an axial magnetic field is generated are large Extent became known. Essentially, the actual contact area becomes a Associated coil arrangement, either outside the vacuum chamber or in is arranged inside the vacuum chamber behind the contact surface.

The object of the invention is a contact piece arrangement for an axial magnetic field simplify contact further and, among other things, in the direction of contact resistance Functionally improve stand minimization.  

This object is achieved by the features of claim 1.

According to the invention, a carrier plate is fastened to the end face of the contact stem, on which a coil ring rests, which on a circumferential area on the carrier plate attached, axially projecting first projection and diametrically against overlying circumferential area axially protrudes in the opposite direction has the second projection, and that on the second projection a contact piece plate is placed.

When these three components are connected, the current flows from Contact stem over the carrier plate in the first projection, divides there in the Coil in two parts and flows over the second projection into the contact plate, creating a bipolar axial magnetic field. This arrangement is very simple and easy to manufacture.

A particularly advantageous embodiment of the coil ring can go that this is circular.

If the three components are connected, then it is self-evident always necessary, additional support elements between the coil ring, the Trä insert plate and the contact piece plate, the axial length of which is dimensioned so like the axial length of the two protrusions. These support elements are useful Made from a material with low electrical conductivity, so that the above-mentioned current flow is realized.

A further improvement of the invention can go that inside the Spu lenringes a center conductor is used, on the one hand with the carrier plate and others is in connection with the contact piece, the arrangement being such that the current in the center conductor is opposite to the current flows in the coil ring running. This arrangement is specified in the features of claim 4.  

A further embodiment of the invention can be found in claim 5. After that a three-armed cross can be provided to form the coil; on the first arm is followed by an approximately C-shaped conductor section, the open side of which is towards the two other poor people are executed; at the free ends of the roughly mutually pointing Bridges are each formed with a projection. The other two arms are at their free Ends connected with an E-shaped section, the central web of the E-shape in Direction to the cross point and has a projection that in the same direction as the other ledges points. This causes the current to flow from the contact stem to the Cross point and is divided on the individual arms. The share of electricity in the first Arm flows, again divides into the two legs and bars of the C-shape and flows over the protrusions to the contact piece plate. The other parts of the current flow over the both arms in the E-shaped section and over the center bar and attached there also arranged the projection in the contact plate. The one flowing into the coil Electricity thus has quasi-parallel current components, the axial generate magnetic field.

According to an embodiment of this arrangement, the two other arms, that is second arms, aligned in a line, whereas the first arm is perpendicular to it running.

According to a further embodiment of the invention, the coil ring according to An Say 7 consist of two semicircular arches, at the free ends of each a first axial Projection and in between on the semicircular arch in the opposite direction Connect the running projection. The semicircular arches are assigned to one another that the first projections of one arch against the support plate and the other Bend against the contact plate. This causes the contact stem to flow into the Carrier plate a current component in the projection of a semicircular arc and one each further current component in the two protrusions of the other semicircular arc, so that the current is divided into a semicircular arc two current components, which over the adjoining protrusions in the contact piece plate flow, whereas the other two electricity components in the area of the Combine the contact plate of the executed projection and the contact carrier plate  lead, which results in corresponding current flow directions that lead to generation serve an axial magnetic field. An advantage of this arrangement is that both Semicircular arches are identical and only quasi reversed to each other arranges between the two plates are arranged.

In this embodiment, there is a possibility that in a similar manner as in the Execution with the closed coil ring is arranged a central web, which in is correspondingly assigned to the two semicircles so that around area of the projection, which connects to the contact carrier plate, a nose on the center conductor connects to the carrier plate, whereas in the area of the projection of the other Ren semicircular arc a nose arranged on the center conductor against the contact piece plate strikes.

According to a further embodiment, the coil can be made of two against one another directed E-forms are built, the same at their free outer ends protruding direction and one in the opposite direction on the central web Have direction protruding projection. By arranging accordingly an axial magnetic field can then be generated.

Using the drawing, in which some embodiments of the invention are shown are, the invention and other advantageous refinements and improvements stations of the invention are explained and described in more detail.

Show it:

Fig. Onsdarstellung 1 to 6 respectively different contact piece assemblies, each in explosi.

Reference is now made to FIG. 1.

On the end face of a contact stem 10 , a support plate 11 is preferably fixed from copper, on which a circular coil ring 12 is preferably arranged from copper; the contact piece arrangement is completed by a contact piece plate 13 preferably made of CuCr.

The coil ring 12 has in a circumferential partial area an axially jumping first projection 14 and on the diametrically opposite circumferential gene a second, protruding projection 15th The projection 14 is electrically conductively connected to the carrier plate 11 , and the projection 15 to the contact carrier plate. That between the ring 12 and the support plate 11 or the contact piece plate 13 support elements must be provided (not shown) is self-evident and is related to the fact that the holder of the coil ring between the two plates 11 and 13 must be ensured so that deformations of the Coil ring and thus the entire contact piece arrangement can be avoided with an axial load when a vacuum chamber is switched on.

The current I flows in the direction of the arrow P ₁ into the carrier plate, according to the direction of the arrow P from the carrier plate into the ring 12 , then divides into two current portions ½ × I, flows through the two coil areas between the projections 14 and 15 in the direction of the arrow P ₃ or P ₄ , the two part streams reuniting in the region of the projection 15 and flowing over the projection according to the direction of the arrow P ₂ into the contact piece plate 13 and via a diffuse arc 16 to the contact piece arrangement opposite. The two partial flows in the direction of the arrows P ₃ and P ₄ flow in a current flow plane, quasi parallel to one another, as a result of which an axial magnetic field is generated.

The contact arrangement according to FIG. 2 is located within the coil ring 12, a center conductor 17, which at each of its ends a projection 18 and 19, of which a projection 18 against the support plate 11 and the other protrusion ge abuts gen the contact piece plate 13. The projection 18 is in the area in which the projection 15 lies; the projection 19 to the contact piece plate 13 in the region where the projection 14 is arranged. As a result, the current I flows on the one hand via the coil ring 12 as shown in FIG. 1 and on the other hand in the center conductor opposite to the two partial currents in the coil ring and then via the projection 19 into the contact piece plate 13 .

Reference is made to FIG. 3.

At a contact stem 10 a cross or T-point 30 closes with a first arm 31 and a second arm 32 and a third arm 33 , the latter lying in a line. At the cross point 30 opposite end 34 of the first arm 31 is a C-shaped part 35 with a first leg 36 and a second leg 37 , at the free ends perpendicular to the first arm 31 ver webs 38 and 39 are formed . These webs run parallel to the arms 32 and 33 and on the one hand end at a certain distance in front of the arm 31 ; There is a slot 40 and 41 between the webs 38 and 39 . Protrusions 42 and 43 are integrally formed on the free webs 38 and 39 facing each other. The projections 42 and 43 are axial projections in the direction of the contact piece plate 13 . At the end of the two arms 32 and 33 there is an E-shaped arc section 44 , on the central web 45 facing the arms 32 and 33 a projection 46 is formed, which projects in the same direction as the two projections 42 and 43 . The contact piece plate 13 is placed on the projections 42 and 43 and 46 and all three components are connected to one another in an electrically conductive manner. Possibly. can be provided in the region of the peripheral edge of the contact piece plate 13 , so that bending of the contact piece plate 13 or the webs 38 , 39 , 45 or the arms 31 , 32 and 33 is avoided.

The current 1 flows from the contact stem 10 to the cross point 30 and divides accordingly the cross section of the arms 31 , 32 and 33 , which must be dimensioned accordingly, in a radially outwardly flowing from the cross point 30 and in current portions in the arms 32 and 33 , which also run radially outwards. From the connection point 34 , partial flows flow via the legs 36 and 37 into the webs 38 and 39 and from there via the projections 42 and 43 into the contact piece plate 13 . The partial flows flowing outwards via the arms 32 and 33 unite at the starting point of the central web 45 , flow through the central web 45 into the projection 46 and from there into the contact piece plate 13 . The cross sections of the arms and the other sections should be chosen so that half the current portion flows through the arm 31 and the web 45 , so that in the arms 32 and 33 and the subsequent circular arc sections of the E-shape and in the legs 36 and 37 and the webs 38 and 39 each the fourth part of the current flows.

Another embodiment of the invention is shown in FIG. 4. The Anord voltage of the coil or the coil ring is a continuation of the coil or the Spu lenringes 12 , in which the coil ring 12 is divided into two ring halves 50 and 51 , the free ends of which are spaced apart. The coil ring 50 has a projection 52 corresponding to the projection 14 , which connects to the carrier plate 11 . A projection 53 adjoins the coil half 51 , which corresponds to the projection 15 and comes to rest on the contact piece plate 13 . At the free ends of the coil halves 50 and 51 close axial projections 54 , 55 , which abut on the contact plate 14 Kon, and on the ring part 51 projections 56 , 57 , which connect to the support plate 11 .

As a result, a partial flow flows via the projection 52 into the ring half 50 and via the projections 54 and 55 into the contact piece plate; partial currents flow from the carrier plate 11 via the projections 56 and 57 into the coil half 51 and via the projection 53 into the contact piece plate 14 . The dimensioning of the individual coil ring cross sections should be chosen so that each partial ring 50 , 51 carries half of the current. The portion of the current is distributed over the protrusion 52 to ¼ of the total current, and ¼ of the current accordingly flows via the protrusions 54 and 55 into the carrier plate. Conversely, a quarter of the current flows through the projections 56 and 57 and then the half of the current flows into the contact piece plate 13 .

To improve the contact piece arrangement shown in FIG. 4, a center conductor is provided in the arrangement according to FIG. 5, which is the same as the center conductor 17 in FIG. 2 and accordingly also bears the same reference number 17 , with the projections 18 to the carrier plate 11 and 19 to the contact piece plate 13 . The ring parts 50 and 51 surrounding the center conductor are similar to the ring parts 50 and 51 of FIG. 4.

It must be added that the ring parts 50 and 51 are identical; one of the two ring halves is rotated by 180 ° relative to the other for assembly.

In the embodiment according to FIG. 6, two coil parts 60 and 61 are provided which have an E-shape, each with two legs 63 , 64 and 65 , 66 , the free ends of which are directed towards one another and are at a certain distance from one another; the center webs 67 and 68 of the E-shape lie essentially in one axis and also point towards one another and end at a certain distance from one another, which can be smaller or larger than the distance between the ends of the legs 63 , 65 ; 64 , 66 .

At the free ends of the legs 63 and 64 , axial projections 69 and 70 are formed , which connect to the contact piece plate 13 ; a projection 71 is formed on the free end of the central portion 67 and connects to the carrier plate 11 . Accordingly, the E-shape has 61 projections 72 and 73 which connect to the carrier plate 11 and the web 68 has a projection 74 which connects to the contact plate 13 .

The current I flows through the contact stem 10 and the carrier plate 11 and partly (½ direct current) through the projection 71 , the central web 67 to the coil part 60 , where it is divided into ¼ total current, to the projections 69 and 70 and from there into the Contact plate 13 . Another partial flow, which is the same size as that over the projection 71 , flows through the projections 72 and 73 , so that ¼ of the total current flows in the projections 72 and 73 and the legs 65 and 66 . The two partial flows through the legs 65 and 66 combine in the web 68 and then flow from there via the projection 74 into the contact piece plate 13 .

Due to the individual current paths, an axial magnetic field is also formed by the arrangement according to FIG. 6. It should also be noted that the two ring halves 60 and 61 are the same and are rotated on the finished contact piece arrangement by 180 °.

That of course with all coils support elements between the carrier plate and the contact plate and the coils located between them then no further mention is required.

Claims (10)

1. contact piece arrangement for a vacuum chamber, which is attached to a contact stem, and with a coil for generating an axial magnetic field, characterized in that a support plate ( 11 ) is attached to the end face of the support stem ( 10 ), on which a coil ring rests, which has at least on one circumferential region an axially projecting first projection placed on the carrier plate and on the diametrically opposite circumferential region an axially projecting second projection in the opposite direction, and that a contact piece plate is placed on the second projection. 2. Contact piece arrangement according to claim 1, characterized in that the Coil ring is circular. 3. Contact piece arrangement according to one of claims 1 or 2, characterized ge indicates that a center conductor is provided in the interior of the coil ring both ends carries a nose that protrude in the opposite direction, that in Area of the first projection on the coil ring that one nose against the contact piece plate and in the area of the second projection the other nose against the back engplatte is applied, so that the current in the middle conductor opposite to the electricity len flows in the coil ring. 4. Contact piece arrangement according to the preamble of claim 1, characterized characterized in that a three-arm cross with the crossing point to form the coil is applied to the contact stem that an approximately C-shaped on a first arm Conductor section connects, with the open side of the C shape facing the other two Arms is directed and an axial on each of the webs to be facing each other Projection is attached, which connect to the contact plate, that to the free The ends of the arms are connected by an E-shaped section, the middle web of which is joined by a  third projection is provided, which is in the same direction as the other projections protrudes and connects to the contact plate, with the C-shaped conductor cuts and the E-shaped conductor section add up to a coil. 5. Contact piece arrangement according to claim 4, characterized in that the the other two arms are in a line and the first arm is perpendicular to it. 6. Contact piece arrangement according to the preamble of claim 1, characterized characterized in that the coil consists of two semicircular arcs, at their free En each with a first axial projection and between them in the opposite direction Connect running projection, and that the semicircular arcs so drawn to each other orders are that the first projections of a sheet against the support plate and of the other bend against the contact piece plate. 7. Contact piece arrangement according to claim 6, characterized in that the the two semicircular arches are identical, with the one semicircular arc counter to 180 ° is twisted above the other. 8. Contact piece arrangement according to claim 7, characterized in that in Inside the two coil halves, a center conductor is provided at both ends has a nose that projects in the opposite direction, that in the area of first projection on the coil ring the one nose against the contact plate and in Area of the second projection, the other nose rests against the carrier plate, so that the current in the center conductor is opposite to the current components in the coil ring flows. 9. Contact piece arrangement according to the preamble of claim 1, characterized characterized in that the coil is constructed from two E-shaped conductor sections, whose free leg ends each have a first axial projection and their free means a second axial projection projecting in the opposite direction are arranged and that the E-shaped conductor sections are assigned to one another, that the first axial projections of an E-shaped conductor against the carrier plate  and the first projections of the other E-shaped conductor section against the Contact plate. 10. Contact piece arrangement according to one of the preceding claims, characterized ge indicates that between the coil ring and the carrier plate or the contact Piece plate support elements are provided, the axial length of that of the front corresponds to jumps and consist of electrically poorly conductive material.